研究活動情報

• 2022年10月 神戸大学, 令和4年度 学長表彰（財務貢献者） 神戸大学

  蓮沼誠久


• 2021年10月 神戸大学, 令和3年度 学長表彰（財務貢献者）

  蓮沼誠久


• 2020年10月 神戸大学, 令和2年度 学長表彰（財務貢献者）

  蓮沼誠久


• 2019年10月 神戸大学, 第11回学長表彰（財務貢献者）

  蓮沼 誠久


• 2018年10月 神戸大学, 第10回学長表彰（財務貢献者）

  蓮沼 誠久


• 2017年10月 神戸大学, 第9回学長表彰（財務貢献者）

  蓮沼 誠久


• 2014年09月 日本生物工学会, 生物工学奨励賞（斎藤賞）, 代謝プロファイリングに基づく微生物育種技術の開発と応用

  蓮沼 誠久


• 2013年10月 バイオインダストリー協会, 発酵と代謝研究奨励賞, システムバイオロジー解析に基づく高機能型酵母創製とセルロースエタノール高生産技術開発への応用

  蓮沼 誠久

• Circular cell culture for sustainable food production using recombinant lactate-assimilating cyanobacteria that supplies pyruvate and amino acids

  Yuji Haraguchi, Yuichi Kato, Kosuke Inabe, Akihiko Kondo, Tomohisa Hasunuma, Tatsuya Shimizu

  Springer Science and Business Media LLC, 2023年06月, Archives of Microbiology, 205(7) (7), 英語

  [査読有り]

  研究論文（学術雑誌）


• l-Lactate treatment by photosynthetic cyanobacteria expressing heterogeneous l-lactate dehydrogenase

  Yuichi Kato, Kosuke Inabe, Yuji Haraguchi, Tatsuya Shimizu, Akihiko Kondo, Tomohisa Hasunuma

  Abstract l-Lactate is a major waste compound in cultured animal cells. To develop a sustainable animal cell culture system, we aimed to study the consumption of l-lactate using a photosynthetic microorganism. As genes involved in l-lactate utilization were not found in most cyanobacteria and microalgae, we introduced the NAD-independent l-lactate dehydrogenase gene from Escherichia coli (lldD) into Synechococcus sp. PCC 7002. The lldD-expressing strain consumed l-lactate added to basal medium. This consumption was accelerated by expression of a lactate permease gene from E. coli (lldP) and an increase in culture temperature. Intracellular levels of acetyl-CoA, citrate, 2-oxoglutarate, succinate, and malate, and extracellular levels of 2-oxoglutarate, succinate, and malate, increased during l-lactate utilization, suggesting that the metabolic flux from l-lactate was distributed toward the tricarboxylic acid cycle. This study provides a perspective on l-lactate treatment by photosynthetic microorganisms, which would increase the feasibility of animal cell culture industries.

  Springer Science and Business Media LLC, 2023年05月, Scientific Reports, 13(1) (1), 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Metabolomic analysis of the effect of nitrogen on fucoxanthin synthesis by the haptophyte Pavlova gyrans

  Erina Yoshida, Yuichi Kato, Akihiko Kanamoto, Akihiko Kondo, Tomohisa Hasunuma

  Elsevier BV, 2023年05月, Algal Research, 72, 103144 - 103144, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Enhanced production of 3,4‐dihydroxybutyrate from xylose by engineered yeast via xylonate re‐assimilation under alkaline condition

  Takahiro Yukawa, Takahiro Bamba, Mami Matsuda, Takanobu Yoshida, Kentaro Inokuma, Jungyeon Kim, Jae Won Lee, Yong‐Su Jin, Akihiko Kondo, Tomohisa Hasunuma

  Wiley, 2023年02月, Biotechnology and Bioengineering, 120(2) (2), 511 - 523, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Direct production of 4‐hydroxybenzoic acid from cellulose using cellulase‐displaying Pichia pastoris

  Kentaro Inokuma, Shunya Miyamoto, Kohei Morinaga, Yuma Kobayashi, Ryota Kumokita, Takahiro Bamba, Yoichiro Ito, Akihiko Kondo, Tomohisa Hasunuma

  Wiley, 2023年01月, Biotechnology and Bioengineering, 120(4) (4), 1097 - 1107, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Enhanced growth and lipid productivity by living Chlorella sorokiniana immobilized in Ca-alginate beads

  Daniel A Alfaro-Sayes, Jerome Amoah, Nova Rachmadona, Shinji Hama, Tomohisa Hasunuma, Akihiko Kondo, Chiaki Ogino

  Abstract The bottleneck for the production of biofuels from microalgae consists on costly harvesting processes and low lipid production, immobilization technology could play a part on making the production of biofuels more feasible. The aim of this study was to evaluate the effect of alginate immobilization on the growth and lipid productivity of the microalgae Chlorella sorokiniana, so far, the main focus of immobilization technology has been its use for wastewater treatment and nutrient removal from effluents. The microalgae Chlorella sorokiniana was cultured in both free and immobilized forms under optimal autotrophic growth conditions. Microalgae were immobilized in calcium alginate beads generated by mixing algal cells with a sodium alginate solution, followed by extrusion into a CaCl₂ solution. The results obtained in this study showed that the growth of the microalgae immobilized in alginate beads, was enhanced and achieved a dry cell weight 1.4-fold higher than that of a free cell culture, a higher light transmittance was also achieved in the alginate immobilized culture, and the lipid productivity was increased from 54.21 ± 2.48 mg l⁻¹ d in the free cell culture to 82.22 ± 8.48 mg l⁻¹ d in the immobilized culture. These results demonstrate the effectiveness of immobilization technology for promoting growth and lipid productivity in the microalgae Chlorella sorokiniana.

  IOP Publishing, 2023年01月, Journal of Physics: Energy, 5(1) (1), 014019 - 014019, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Online SFE-SFC-MS/MS colony screening: A high-throughput approach for optimizing (-)-limonene production

  Musashi Takekana, Takanobu Yoshida, Erika Yoshida, Sumika Ono, Shinnosuke Horie, Christopher J. Vavricka, Moe Hiratani, Kenji Tsuge, Jun Ishii, Yoshihiro Hayakawa, Akihiko Kondo, Tomohisa Hasunuma

  Elsevier BV, 2023年01月, Journal of Chromatography B, 1215, 123588 - 123588, 英語

  [査読有り]

  研究論文（学術雑誌）


• Improving methanol assimilation in Yarrowia lipolytica via systematic metabolic engineering combined with compartmentalization

  Shangjie Zhang, Feng Guo, Qiao Yang, Yujia Jiang, Shihui Yang, Jiangfeng Ma, Fengxue Xin, Tomohisa Hasunuma, Akihiko Kondo, Wenming Zhang, Min Jiang

  Synthetic methylotrophic Yarrowia lipolytica was constructed to convert methanol into biomass components and succinic acid.

  Royal Society of Chemistry (RSC), 2023年, Green Chemistry, 25(1) (1), 183 - 195, 英語

  [査読有り]

  研究論文（学術雑誌）


• Dark accumulation of downstream glycolytic intermediates initiates robust photosynthesis in cyanobacteria

  Kenya Tanaka, Tomokazu Shirai, Christopher J Vavricka, Mami Matsuda, Akihiko Kondo, Tomohisa Hasunuma

  Abstract Photosynthesis must maintain stability and robustness throughout fluctuating natural environments. In cyanobacteria, dark-to-light transition leads to drastic metabolic changes from dark respiratory metabolism to CO2 fixation through the Calvin–Benson–Bassham (CBB) cycle using energy and redox equivalents provided by photosynthetic electron transfer. Previous studies have shown that catabolic metabolism supports the smooth transition into CBB cycle metabolism. However, metabolic mechanisms for robust initiation of photosynthesis are poorly understood due to lack of dynamic metabolic characterizations of dark-to-light transitions. Here, we show rapid dynamic changes (on a time scale of seconds) in absolute metabolite concentrations and 13C tracer incorporation after strong or weak light irradiation in the cyanobacterium Synechocystis sp. PCC 6803. Integration of this data enabled estimation of time-resolved nonstationary metabolic flux underlying CBB cycle activation. This dynamic metabolic analysis indicated that downstream glycolytic intermediates, including phosphoglycerate and phosphoenolpyruvate, accumulate under dark conditions as major substrates for initial CO2 fixation. Compared with wild-type Synechocystis, significant decreases in the initial oxygen evolution rate were observed in 12 h dark preincubated mutants deficient in glycogen degradation or oxidative pentose phosphate pathways. Accordingly, the degree of decrease in the initial oxygen evolution rate was proportional to the accumulated pool size of glycolytic intermediates. These observations indicate that the accumulation of glycolytic intermediates is essential for efficient metabolism switching under fluctuating light environments.

  Oxford University Press (OUP), 2022年12月, Plant Physiology, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Metabolic and Microbial Community Engineering for Four-Carbon Dicarboxylic Acid Production from CO₂-Derived Glycogen in the Cyanobacterium Synechocystis sp. PCC6803

  Ryota Hidese, Mami Matsuda, Mamiko Kajikawa, Takashi Osanai, Akihiko Kondo, Tomohisa Hasunuma

  The four-carbon (C4) dicarboxylic acids, fumarate, malate, and succinate, are the most valuable targets that must be exploited for CO2-based chemical production in the move to a sustainable low-carbon future. Cyanobacteria excrete high amounts of C4 dicarboxylic acids through glycogen fermentation in a dark anoxic environment. The enhancement of metabolic flux in the reductive TCA branch in the Cyanobacterium Synechocystis sp. PCC6803 is a key issue in the C4 dicarboxylic acid production. To improve metabolic flux through the anaplerotic pathway, we have created the recombinant strain PCCK, which expresses foreign ATP-forming phosphoenolpyruvate carboxykinase (PEPck) concurrent with intrinsic phosphoenolpyruvate carboxylase (Ppc) overexpression. Expression of PEPck concurrent with Ppc led to an increase in C4 dicarboxylic acids by autofermentation. Metabolome analysis revealed that PEPck contributed to an increase in carbon flux from hexose and pentose phosphates into the TCA reductive branch. To enhance the metabolic flux in the reductive TCA branch, we examined the effect of corn-steep liquor (CSL) as a nutritional supplement on C4 dicarboxylic acid production. Surprisingly, the addition of sterilized CSL enhanced the malate production in the PCCK strain. Thereafter, the malate and fumarate excreted by the PCCK strain are converted into succinate by the CSL-settling microorganisms. Finally, high-density cultivation of cells lacking the acetate kinase gene showed the highest production of malate and fumarate (3.2 and 2.4 g/L with sterilized CSL) and succinate (5.7 g/L with non-sterile CSL) after 72 h cultivation. The present microbial community engineering is useful for succinate production by one-pot fermentation under dark anoxic conditions.

  American Chemical Society (ACS), 2022年12月, ACS Synthetic Biology, 11(12) (12), 4054 - 4064, 英語, 国際誌

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Alginate immobilization as a strategy for improving succinate production during autofermentation using cyanobacteria Synechocystis sp. PCC 6803

  Daniel A. Alfaro-Sayes, Jerome Amoah, Shimpei Aikawa, Mami Matsuda, Tomohisa Hasunuma, Akihiko Kondo, Chiaki Ogino

  Elsevier BV, 2022年12月, Biochemical Engineering Journal, 188, 108681 - 108681, 英語

  [査読有り]

  研究論文（学術雑誌）


• Machine learning discovery of missing links that mediate alternative branches to plant alkaloids

  Christopher J. Vavricka, Shunsuke Takahashi, Naoki Watanabe, Musashi Takenaka, Mami Matsuda, Takanobu Yoshida, Ryo Suzuki, Hiromasa Kiyota, Jianyong Li, Hiromichi Minami, Jun Ishii, Kenji Tsuge, Michihiro Araki, Akihiko Kondo, Tomohisa Hasunuma

  Abstract Engineering the microbial production of secondary metabolites is limited by the known reactions of correctly annotated enzymes. Therefore, the machine learning discovery of specialized enzymes offers great potential to expand the range of biosynthesis pathways. Benzylisoquinoline alkaloid production is a model example of metabolic engineering with potential to revolutionize the paradigm of sustainable biomanufacturing. Existing bacterial studies utilize a norlaudanosoline pathway, whereas plants contain a more stable norcoclaurine pathway, which is exploited in yeast. However, committed aromatic precursors are still produced using microbial enzymes that remain elusive in plants, and additional downstream missing links remain hidden within highly duplicated plant gene families. In the current study, machine learning is applied to predict and select plant missing link enzymes from homologous candidate sequences. Metabolomics-based characterization of the selected sequences reveals potential aromatic acetaldehyde synthases and phenylpyruvate decarboxylases in reconstructed plant gene-only benzylisoquinoline alkaloid pathways from tyrosine. Synergistic application of the aryl acetaldehyde producing enzymes results in enhanced benzylisoquinoline alkaloid production through hybrid norcoclaurine and norlaudanosoline pathways.

  Springer Science and Business Media LLC, 2022年12月, Nature Communications, 13(1) (1), 1405, 英語

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Development of a stable semi-continuous lipid production system of an oleaginous Chlamydomonas sp. mutant using multi-omics profiling

  Tomoki Oyama, Yuichi Kato, Ryota Hidese, Mami Matsuda, Minenosuke Matsutani, Satoru Watanabe, Akihiko Kondo, Tomohisa Hasunuma

  Abstract Background Microalgal lipid production has attracted global attention in next-generation biofuel research. Nitrogen starvation, which drastically suppresses cell growth, is a common and strong trigger for lipid accumulation in microalgae. We previously developed a mutant Chlamydomonas sp. KAC1801, which can accumulate lipids irrespective of the presence or absence of nitrates. This study aimed to develop a feasible strategy for stable and continuous lipid production through semi-continuous culture of KAC1801. Results KAC1801 continuously accumulated > 20% lipid throughout the subculture (five generations) when inoculated with a dry cell weight of 0.8–0.9 g L⁻¹ and cultured in a medium containing 18.7 mM nitrate, whereas the parent strain KOR1 accumulated only 9% lipid. Under these conditions, KAC1801 continuously produced biomass and consumed nitrates. Lipid productivity of 116.9 mg L⁻¹ day⁻¹ was achieved by semi-continuous cultivation of KAC1801, which was 2.3-fold higher than that of KOR1 (50.5 mg L⁻¹ day⁻¹). Metabolome and transcriptome analyses revealed a depression in photosynthesis and activation of nitrogen assimilation in KAC1801, which are the typical phenotypes of microalgae under nitrogen starvation. Conclusions By optimizing nitrate supply and cell density, a one-step cultivation system for Chlamydomonas sp. KAC1801 under nitrate-replete conditions was successfully developed. KAC1801 achieved a lipid productivity comparable to previously reported levels under nitrogen-limiting conditions. In the culture system of this study, metabolome and transcriptome analyses revealed a nitrogen starvation-like response in KAC1801.

  Springer Science and Business Media LLC, 2022年09月, Biotechnology for Biofuels and Bioproducts, 15(1) (1), 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Improvement of cell-tethered cellulase activity in recombinant strains of Saccharomyces cerevisiae

  Bronwyn Jean Chetty, Kentaro Inokuma, Tomohisa Hasunuma, Willem Heber van Zyl, Riaan den Haan

  Springer Science and Business Media LLC, 2022年09月, Applied Microbiology and Biotechnology, 106(18) (18), 6347 - 6361, 英語

  [査読有り]

  研究論文（学術雑誌）


• Avoiding entry into intracellular protein degradation pathways by signal mutations increases protein secretion in Pichia pastoris

  Yoichiro Ito, Misa Ishigami, Noriko Hashiba, Yasuyuki Nakamura, Goro Terai, Tomohisa Hasunuma, Jun Ishii, Akihiko Kondo

  Wiley, 2022年09月, Microbial Biotechnology, 15(9) (9), 2364 - 2378, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Metabolic engineering of the L-serine biosynthetic pathway improves glutathione production in Saccharomyces cerevisiae.

  Jyumpei Kobayashi, Daisuke Sasaki, Kiyotaka Y Hara, Tomohisa Hasunuma, Akihiko Kondo

  BACKGROUND: Glutathione is a valuable tri-peptide that is industrially produced by fermentation using the yeast Saccharomyces cerevisiae, and is widely used in the pharmaceutical, food, and cosmetic industries. It has been reported that addition of L-serine (L-Ser) is effective at increasing the intracellular glutathione content because L-Ser is the common precursor of L-cysteine (L-Cys) and glycine (Gly) which are substrates for glutathione biosynthesis. Therefore, we tried to enhance the L-Ser biosynthetic pathway in S. cerevisiae for improved glutathione production. RESULTS: The volumetric glutathione production of recombinant strains individually overexpressing SER2, SER1, SER3, and SER33 involved in L-Ser biosynthesis at 48 h cultivation was increased 1.3, 1.4, 1.9, and 1.9-fold, respectively, compared with that of the host GCI strain, which overexpresses genes involved in glutathione biosynthesis. We further examined simultaneous overexpression of SHM2 and/or CYS4 genes involved in Gly and L-Cys biosynthesis, respectively, using recombinant GCI strain overexpressing SER3 and SER33 as hosts. As a result, GCI overexpressing SER3, SHM2, and CYS4 showed the highest volumetric glutathione production (64.0 ± 4.9 mg/L) at 48 h cultivation, and this value is about 2.5-fold higher than that of the control strain. CONCLUSIONS: This study first revealed that engineering of L-Ser and Gly biosynthetic pathway are useful strategies for fermentative glutathione production by S. cerevisiase.

  Springer Science and Business Media LLC, 2022年08月, Microbial cell factories, 21(1) (1), 153 - 153, 英語, 国際誌

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Construction of an l-Tyrosine Chassis in Pichia pastoris Enhances Aromatic Secondary Metabolite Production from Glycerol

  Ryota Kumokita, Takahiro Bamba, Kentaro Inokuma, Takanobu Yoshida, Yoichiro Ito, Akihiko Kondo, Tomohisa Hasunuma

  American Chemical Society (ACS), 2022年06月, ACS Synthetic Biology, 11(6) (6), 2098 - 2107, 英語

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• A streamlined strain engineering workflow with genome-wide screening detects enhanced protein secretion in Komagataella phaffii

  Yoichiro Ito, Misa Ishigami, Goro Terai, Yasuyuki Nakamura, Noriko Hashiba, Teruyuki Nishi, Hikaru Nakazawa, Tomohisa Hasunuma, Kiyoshi Asai, Mitsuo Umetsu, Jun Ishii, Akihiko Kondo

  Abstract Expression of secreted recombinant proteins burdens the protein secretion machinery, limiting production. Here, we describe an approach to improving protein production by the non-conventional yeast Komagataella phaffii comprised of genome-wide screening for effective gene disruptions, combining them in a single strain, and recovering growth reduction by adaptive evolution. For the screen, we designed a multiwell-formatted, streamlined workflow to high-throughput assay of secretion of a single-chain small antibody, which is cumbersome to detect but serves as a good model of proteins that are difficult to secrete. Using the consolidated screening system, we evaluated >19,000 mutant strains from a mutant library prepared by a modified random gene-disruption method, and identified six factors for which disruption led to increased antibody production. We then combined the disruptions, up to quadruple gene knockouts, which appeared to contribute independently, in a single strain and observed an additive effect. Target protein and promoter were basically interchangeable for the effects of knockout genes screened. We finally used adaptive evolution to recover reduced cell growth by multiple gene knockouts and examine the possibility for further enhancing protein secretion. Our successful, three-part approach holds promise as a method for improving protein production by non-conventional microorganisms.

  Springer Science and Business Media LLC, 2022年06月, Communications Biology, 5(1) (1), 561, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Pulsed-Ultrasound Irradiation Induces the Production of Itaconate and Attenuates Inflammatory Responses in Macrophages

  Atomu Yamaguchi, Noriaki Maeshige, Xiaoqi Ma, Mikiko Uemura, Hikari Noguchi, Mami Matsuda, Yuya Nishimura, Tomohisa Hasunuma, Hiroyo Kondo, Hidemi Fujino

  Informa UK Limited, 2022年04月, Journal of Inflammation Research, Volume 15, 2387 - 2395, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Enzyme display technology for lignocellulosic biomass valorization by yeast cell factories

  Takahiro Bamba, Gregory Guirimand, Akihiko Kondo, Tomohisa Hasunuma

  Elsevier BV, 2022年02月, Current Opinion in Green and Sustainable Chemistry, 33, 100584 - 100584, 英語

  研究論文（学術雑誌）


• Efficient preparation of soluble inducer for cellulase production and saccharification of corn stover using in-house generated crude enzymes

  Yonghao Li, Peng Zhang, Deying Zhu, Bo Yao, Tomohisa Hasunuma, Akihiko Kondo, Xinqing Zhao

  Elsevier BV, 2022年01月, Biochemical Engineering Journal, 178, 108296 - 108296

  研究論文（学術雑誌）


• Improved ethanol fermentation by promoter replacement of zinc responsive genes IPL1, PRP6 and RTC1 in Saccharomyces cerevisiae

  Hong-Qi Chen, Ming-Ming Zhang, Qi Xing, Pei-Liang Ye, Tomohisa Hasunuma, Akihiko Kondo, Xin-Qing Zhao

  Elsevier BV, 2022年01月, Biochemical Engineering Journal, 178, 108274 - 108274

  研究論文（学術雑誌）


• Resveratrol production of a recombinant Scheffersomyces stipitis strain from molasses

  Yuma Kobayashi, Kentaro Inokuma, Mami Matsuda, Akihiko Kondo, Tomohisa Hasunuma

  Elsevier BV, 2022年01月, Biotechnology Notes, 3, 1 - 7, 英語

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Metabolomics-based engineering for biofuel and bio-based chemical production in microalgae and cyanobacteria: A review

  Yuichi Kato, Kosuke Inabe, Ryota Hidese, Akihiko Kondo, Tomohisa Hasunuma

  Elsevier BV, 2022年01月, Bioresource Technology, 344, 126196 - 126196, 英語

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Pretreatment of extruded Napier grass by hydrothermal process with dilute sulfuric acid and fermentation using a cellulose-hydrolyzing and xylose-assimilating yeast for ethanol production

  Ku Syahidah Ku Ismail, Yuki Matano, Yuri Sakihama, Kentaro Inokuma, Yumiko Nambu, Tomohisa Hasunuma, Akihiko Kondo

  Elsevier BV, 2022年01月, Bioresource Technology, 343, 126071 - 126071, 英語

  研究論文（学術雑誌）


• Nitrogen Availability Affects the Metabolic Profile in Cyanobacteria

  Kosuke Inabe, Ayaka Miichi, Mami Matsuda, Takanobu Yoshida, Yuichi Kato, Ryota Hidese, Akihiko Kondo, Tomohisa Hasunuma

  Nitrogen is essential for the biosynthesis of various molecules in cells, such as amino acids and nucleotides, as well as several types of lipids and sugars. Cyanobacteria can assimilate several forms of nitrogen, including nitrate, ammonium, and urea, and the physiological and genetic responses to these nitrogen sources have been studied previously. However, the metabolic changes in cyanobacteria caused by different nitrogen sources have not yet been characterized. This study aimed to elucidate the influence of nitrate and ammonium on the metabolic profiles of the cyanobacterium Synechocystis sp. strain PCC 6803. When supplemented with NaNO3 or NH4Cl as the nitrogen source, Synechocystis sp. PCC 6803 grew faster in NH4Cl medium than in NaNO3 medium. Metabolome analysis indicated that some metabolites in the CBB cycle, glycolysis, and TCA cycle, and amino acids were more abundant when grown in NH4Cl medium than NaNO3 medium. 15N turnover rate analysis revealed that the nitrogen assimilation rate in NH4Cl medium was higher than in NaNO3 medium. These results indicate that the mechanism of nitrogen assimilation in the GS-GOGAT cycle differs between NaNO3 and NH4Cl. We conclude that the amounts and biosynthetic rate of cyanobacterial metabolites varies depending on the type of nitrogen.

  MDPI AG, 2021年12月, Metabolites, 11(12) (12), 867 - 867

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Enhanced production of γ-amino acid 3-amino-4-hydroxybenzoic acid by recombinant Corynebacterium glutamicum under oxygen limitation

  Hideo Kawaguchi, Tomohisa Hasunuma, Yasuo Ohnishi, Takashi Sazuka, Akihiko Kondo, Chiaki Ogino

  Bio-based aromatic compounds are of great interest to the industry, as commercial production of aromatic compounds depends exclusively on the unsustainable use of fossil resources or extraction from plant resources. γ-amino acid 3-amino-4-hydroxybenzoic acid (3,4-AHBA) serves as a precursor for thermostable bioplastics. Under aerobic conditions, a recombinant Corynebacterium glutamicum strain KT01 expressing griH and griI genes derived from Streptomyces griseus produced 3,4-AHBA with large amounts of amino acids as by-products. The specific productivity of 3,4-AHBA increased with decreasing levels of dissolved oxygen (DO) and was eightfold higher under oxygen limitation (DO = 0 ppm) than under aerobic conditions (DO ≥ 2.6 ppm). Metabolic profiles during 3,4-AHBA production were compared at three different DO levels (0, 2.6, and 5.3 ppm) using the DO-stat method. Results of the metabolome analysis revealed metabolic shifts in both the central metabolic pathway and amino acid metabolism at a DO of < 33% saturated oxygen. Based on this metabolome analysis, metabolic pathways were rationally designed for oxygen limitation. An ldh deletion mutant, with the loss of lactate dehydrogenase, exhibited 3.7-fold higher specific productivity of 3,4-AHBA at DO = 0 ppm as compared to the parent strain KT01 and produced 5.6 g/L 3,4-AHBA in a glucose fed-batch culture. Our results revealed changes in the metabolic state in response to DO concentration and provided insights into oxygen supply during fermentation and the rational design of metabolic pathways for improved production of related amino acids and their derivatives.

  Springer Science and Business Media LLC, 2021年12月, Microbial Cell Factories, 20(1) (1), 228, 英語

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Development of mutant microalgae that accumulate lipids under nitrate-replete conditions

  Tomoki Oyama, Yuichi Kato, Katsuya Satoh, Yutaka Oono, Mami Matsuda, Tomohisa Hasunuma, Akihiko Kondo

  Elsevier BV, 2021年12月, Algal Research, 60, 102544 - 102544

  研究論文（学術雑誌）


• Resveratrol production from several types of saccharide sources by a recombinant Scheffersomyces stipitis strain

  Yuma Kobayashi, Kentaro Inokuma, Mami Matsuda, Akihiko Kondo, Tomohisa Hasunuma

  Elsevier BV, 2021年12月, Metabolic Engineering Communications, 13, e00188 - e00188, 英語

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Disruption of alpha-tubulin releases carbon catabolite repression and enhances enzyme production in Trichoderma reesei even in the presence of glucose

  Nozomu Shibata, Hiroshi Kakeshita, Kazuaki Igarashi, Yasushi Takimura, Yosuke Shida, Wataru Ogasawara, Tohru Koda, Tomohisa Hasunuma, Akihiko Kondo

  Trichoderma reesei is a filamentous fungus that is important as an industrial producer of cellulases and hemicellulases due to its high secretion of these enzymes and outstanding performance in industrial fermenters. However, the reduction of enzyme production caused by carbon catabolite repression (CCR) has long been a problem. Disruption of a typical transcriptional regulator, Cre1, does not sufficiently suppress this reduction in the presence of glucose. We found that deletion of an α-tubulin (tubB) in T. reesei enhanced both the amount and rate of secretory protein production. Also, the tubulin-disrupted (ΔtubB) strain had high enzyme production and the same enzyme profile even if the strain was cultured in a glucose-containing medium. From transcriptome analysis, the ΔtubB strain exhibited upregulation of both cellulase and hemicellulase genes including some that were not originally induced by cellulose. Moreover, cellobiose transporter genes and the other sugar transporter genes were highly upregulated, and simultaneous uptake of glucose and cellobiose was also observed in the ΔtubB strain. These results suggested that the ΔtubB strain was released from CCR. Trichoderma reesei α-tubulin is involved in the transcription of cellulase and hemicellulase genes, as well as in CCR. This is the first report of overcoming CCR by disrupting α-tubulin gene in T. reesei. The disruption of α-tubulin is a promising approach for creating next-generation enzyme-producing strains of T. reesei.

  Springer Science and Business Media LLC, 2021年12月, Biotechnology for Biofuels, 14(1) (1), 39 - 39, 英語, 国際誌

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Enhancing carbohydrate repartitioning into lipid and carotenoid by disruption of microalgae starch debranching enzyme

  Yuichi Kato, Tomoki Oyama, Kentaro Inokuma, Christopher J. Vavricka, Mami Matsuda, Ryota Hidese, Katsuya Satoh, Yutaka Oono, Jo-Shu Chang, Tomohisa Hasunuma, Akihiko Kondo

  Light/dark cycling is an inherent condition of outdoor microalgae cultivation, but is often unfavorable for lipid accumulation. This study aims to identify promising targets for metabolic engineering of improved lipid accumulation under outdoor conditions. Consequently, the lipid-rich mutant Chlamydomonas sp. KOR1 was developed through light/dark-conditioned screening. During dark periods with depressed CO₂ fixation, KOR1 shows rapid carbohydrate degradation together with increased lipid and carotenoid contents. KOR1 was subsequently characterized with extensive mutation of the ISA1 gene encoding a starch debranching enzyme (DBE). Dynamic time-course profiling and metabolomics reveal dramatic changes in KOR1 metabolism throughout light/dark cycles. During light periods, increased flux from CO₂ through glycolytic intermediates is directly observed to accompany enhanced formation of small starch-like particles, which are then efficiently repartitioned in the next dark cycle. This study demonstrates that disruption of DBE can improve biofuel production under light/dark conditions, through accelerated carbohydrate repartitioning into lipid and carotenoid.

  Springer Science and Business Media LLC, 2021年12月, Communications Biology, 4(1) (1)

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Salinity-induced microalgal-based mariculture wastewater treatment combined with biodiesel production

  Chaofan Zhang, Tomohisa Hasunuma, Su Shiung Lam, Akihiko Kondo, Shih-Hsin Ho

  Elsevier BV, 2021年11月, Bioresource Technology, 340, 125638 - 125638, 英語

  研究論文（学術雑誌）


• Cell surface engineering of Saccharomyces cerevisiae for simultaneous valorization of corn cob and cheese whey via ethanol production

  Joana T. Cunha, Daniel G. Gomes, Aloia Romaní, Kentaro Inokuma, Tomohisa Hasunuma, Akihiko Kondo, Lucília Domingues

  Elsevier BV, 2021年09月, Energy Conversion and Management, 243, 114359 - 114359, 英語

  研究論文（学術雑誌）


• Improving the functionality of surface-engineered yeast cells by altering the cell wall morphology of the host strain

  Kentaro Inokuma, Yuki Kitada, Takahiro Bamba, Yuma Kobayashi, Takahiro Yukawa, Riaan den Haan, Willem Heber van Zyl, Akihiko Kondo, Tomohisa Hasunuma

  Springer Science and Business Media LLC, 2021年08月, Applied Microbiology and Biotechnology, 105(14-15) (14-15), 5895 - 5904, 英語

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Lutein production with Chlorella sorokiniana MB-1-M12 using novel two-stage cultivation strategies – metabolic analysis and process improvement

  Jih-Heng Chen, Yuichi Kato, Mami Matsuda, Chun-Yen Chen, Dillirani Nagarajan, Tomohisa Hasunuma, Akihiko Kondo, Jo-Shu Chang

  Elsevier BV, 2021年08月, Bioresource Technology, 334, 125200 - 125200, 英語

  研究論文（学術雑誌）


• Morphological Indicator for Directed Evolution of Euglena gracilis with a High Heavy Metal Removal Efficiency

  Muzhen Xu, Jeffrey Harmon, Dan Yuan, Sheng Yan, Cheng Lei, Kotaro Hiramatsu, Yuqi Zhou, Mun Hong Loo, Tomohisa Hasunuma, Akihiro Isozaki, Keisuke Goda

  In the past few decades, microalgae-based bioremediation methods for treating heavy metal (HM)-polluted wastewater have attracted much attention by virtue of their environment friendliness, cost efficiency, and sustainability. However, their HM removal efficiency is far from practical use. Directed evolution is expected to be effective for developing microalgae with a much higher HM removal efficiency, but there is no non-invasive or label-free indicator to identify them. Here, we present an intelligent cellular morphological indicator for identifying the HM removal efficiency of Euglena gracilis in a non-invasive and label-free manner. Specifically, we show a strong monotonic correlation (Spearman's ρ = -0.82, P = 2.1 × 10-5) between a morphological meta-feature recognized via our machine learning algorithms and the Cu2+ removal efficiency of 19 E. gracilis clones. Our findings firmly suggest that the morphology of E. gracilis cells can serve as an effective HM removal efficiency indicator and hence have great potential, when combined with a high-throughput image-activated cell sorter, for directed-evolution-based development of E. gracilis with an extremely high HM removal efficiency for practical wastewater treatment worldwide.

  American Chemical Society (ACS), 2021年06月, Environmental Science & Technology, 55(12) (12), 7880 - 7889, 英語, 国際誌

  研究論文（学術雑誌）


• Synthetic production of prenylated naringenins in yeast using promiscuous microbial prenyltransferases

  Shota Isogai, Nobuyuki Okahashi, Ririka Asama, Tomomi Nakamura, Tomohisa Hasunuma, Fumio Matsuda, Jun Ishii, Akihiko Kondo

  Reconstitution of prenylflavonoids using the flavonoid biosynthetic pathway and prenyltransferases (PTs) in microbes can be a promising attractive alternative to plant-based production or chemical synthesis. Here, we demonstrate that promiscuous microbial PTs can be a substitute for regiospecific but mostly unidentified botanical PTs. To test the prenylations of naringenin, we constructed a yeast strain capable of producing naringenin from l-phenylalanine by genomic integration of six exogenous genes encoding components of the naringenin biosynthetic pathway. Using this platform strain, various microbial PTs were tested for prenylnaringenin production. In vitro screening demonstrated that the fungal AnaPT (a member of the tryptophan dimethylallyltransferase family) specifically catalyzed C-3' prenylation of naringenin, whereas SfN8DT-1, a botanical PT, specifically catalyzed C-8 prenylation. In vivo, the naringenin-producing strain expressing the microbial AnaPT exhibited heterologous microbial production of 3'-prenylnaringenin (3'-PN), in contrast to the previously reported in vivo production of 8-prenylnaringenin (8-PN) using the botanical SfN8DT-1. These findings provide strategies towards expanding the production of a variety of prenylated compounds, including well-known prenylnaringenins and novel prenylflavonoids. These results also suggest the opportunity for substituting botanical PTs, both known and unidentified, that display relatively strict regiospecificity of the prenyl group transfer.

  Elsevier BV, 2021年06月, Metabolic Engineering Communications, 12, e00169 - e00169, 英語, 国際誌

  研究論文（学術雑誌）


• Innovative Tools and Strategies for Optimizing Yeast Cell Factories

  Gregory Guirimand, Natalja Kulagina, Nicolas Papon, Tomohisa Hasunuma, Vincent Courdavault

  Elsevier BV, 2021年05月, Trends in Biotechnology, 39(5) (5), 488 - 504, 英語

  研究論文（学術雑誌）

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• Multiple mutations in RNA polymerase β-subunit gene (rpoB) in Streptomyces incarnatus NRRL8089 enhance production of antiviral antibiotic sinefungin: modeling rif cluster region by density functional theory

  Saori Ogawa, Hitomi Shimidzu, Koji Fukuda, Naoki Tsunekawa, Toshiyuki Hirano, Fumitoshi Sato, Kei Yura, Tomohisa Hasunuma, Kozo Ochi, Michio Yamamoto, Wataru Sakamoto, Kentaro Hashimoto, Hiroyuki Ogata, Tadayoshi Kanao, Michiko Nemoto, Kenji Inagaki, Takashi Tamura

  Streptomyces incarnatus NRRL8089 produces the antiviral, antifungal, antiprotozoal nucleoside antibiotic sinefungin. To enhance sinefungin production, multiple mutations were introduced to the rpoB gene encoding RNA polymerase (RNAP) β-subunit at the target residues, D447, S453, H457, and R460. Sparse regression analysis using elastic-net lasso-ridge penalties on previously reported H457X mutations identified a numeric parameter set, which suggested that H457R/Y/F may cause production enhancement. H457R/R460C mutation successfully enhanced the sinefungin production by 3-fold, while other groups of mutations, such as D447G/R460C or D447G/H457Y, made moderate or even negative effects. To identify why the rif cluster residues have diverse effects on sinefungin production, an RNAP/DNA/mRNA complex model was constructed by homology modeling and molecular dynamics simulation. The 4 residues were located near the mRNA strand. Density functional theory–based calculation suggested that D447, H457, and R460 are in direct contact with ribonucleotide, and partially positive charges are induced by negatively charged chain of mRNA.

  Oxford University Press (OUP), 2021年04月, Bioscience, Biotechnology, and Biochemistry, 85(5) (5), 1275 - 1282, 英語

  研究論文（学術雑誌）


• Optimization of 1,2,4‐butanetriol production from xylose in Saccharomyces cerevisiae by metabolic engineering of NADH/NADPH balance

  Takahiro Yukawa, Takahiro Bamba, Gregory Guirimand, Mami Matsuda, Tomohisa Hasunuma, Akihiko Kondo

  Wiley, 2021年01月, Biotechnology and Bioengineering, 118(1) (1), 175 - 185, 英語

  研究論文（学術雑誌）


• An ion-pair free LC-MS/MS method for quantitative metabolite profiling of microbial bioproduction systems

  Musashi Takenaka, Takanobu Yoshida, Yoshimi Hori, Takahiro Bamba, Masao Mochizuki, Christopher J. Vavricka, Takanari Hattori, Yoshihiro Hayakawa, Tomohisa Hasunuma, Akihiko Kondo

  Elsevier BV, 2021年01月, Talanta, 222, 121625 - 121625, 英語

  研究論文（学術雑誌）


• Exchange of endogenous and heterogeneous yeast terminators in Pichia pastoris to tune mRNA stability and gene expression

  Yoichiro Ito, Goro Terai, Misa Ishigami, Noriko Hashiba, Yasuyuki Nakamura, Takahiro Bamba, Ryota Kumokita, Tomohisa Hasunuma, Kiyoshi Asai, Jun Ishii, Akihiko Kondo

  In the yeast Saccharomyces cerevisiae, terminator sequences not only terminate transcription but also affect expression levels of the protein-encoded upstream of the terminator. The non-conventional yeast Pichia pastoris (syn. Komagataella phaffii) has frequently been used as a platform for metabolic engineering but knowledge regarding P. pastoris terminators is limited. To explore terminator sequences available to tune protein expression levels in P. pastoris, we created a ‘terminator catalog’ by testing 72 sequences, including terminators from S. cerevisiae or P. pastoris and synthetic terminators. Altogether, we found that the terminators have a tunable range of 17-fold. We also found that S. cerevisiae terminator sequences maintain function when transferred to P. pastoris. Successful tuning of protein expression levels was shown not only for the reporter gene used to define the catalog but also using betaxanthin production as an example application in pathway flux regulation. Moreover, we found experimental evidence that protein expression levels result from mRNA abundance and in silico evidence that levels reflect the stability of mRNA 3′-UTR secondary structure. In combination with promoter selection, the novel terminator catalog constitutes a basic toolbox for tuning protein expression levels in metabolic engineering and synthetic biology in P. pastoris.

  Oxford University Press (OUP), 2020年12月, Nucleic Acids Research, 48(22) (22), 13000 - 13012, 英語

  研究論文（学術雑誌）

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• Japan Computational Mass Spectrometry Meeting 2020 Activity Report

  Hiroyuki Yamamoto, Eisuke Hayakawa, Hiroshi Tsugawa, Yuki Moriya, Eiichiro Fukusaki, Susumu Goto, Tomohisa Hasunuma, Nobuaki Miura, Akiyasu C. Yoshizawa

  2020年12月, Journal of Proteome Data and Methods, 2(0005) (0005), 英語

  研究論文（学術雑誌）


• Raman image-activated cell sorting

  Nao Nitta, Takanori Iino, Akihiro Isozaki, Mai Yamagishi, Yasutaka Kitahama, Shinya Sakuma, Yuta Suzuki, Hiroshi Tezuka, Minoru Oikawa, Fumihito Arai, Takuya Asai, Dinghuan Deng, Hideya Fukuzawa, Misa Hase, Tomohisa Hasunuma, Takeshi Hayakawa, Kei Hiraki, Kotaro Hiramatsu, Yu Hoshino, Mary Inaba, Yuki Inoue, Takuro Ito, Masataka Kajikawa, Hiroshi Karakawa, Yusuke Kasai, Yuichi Kato, Hirofumi Kobayashi, Cheng Lei, Satoshi Matsusaka, Hideharu Mikami, Atsuhiro Nakagawa, Keiji Numata, Tadataka Ota, Takeichiro Sekiya, Kiyotaka Shiba, Yoshitaka Shirasaki, Nobutake Suzuki, Shunji Tanaka, Shunnosuke Ueno, Hiroshi Watarai, Takashi Yamano, Masayuki Yazawa, Yusuke Yonamine, Dino Di Carlo, Yoichiroh Hosokawa, Sotaro Uemura, Takeaki Sugimura, Yasuyuki Ozeki, Keisuke Goda

  Springer Science and Business Media LLC, 2020年12月, Nature Communications, 11(1) (1), 3452, 英語

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  研究論文（学術雑誌）


• Consolidated bioprocessing of corn cob-derived hemicellulose: engineered industrial Saccharomyces cerevisiae as efficient whole cell biocatalysts

  Joana T. Cunha, Aloia Romaní, Kentaro Inokuma, Björn Johansson, Tomohisa Hasunuma, Akihiko Kondo, Lucília Domingues

  Consolidated bioprocessing, which combines saccharolytic and fermentative abilities in a single microorganism, is receiving increased attention to decrease environmental and economic costs in lignocellulosic biorefineries. Nevertheless, the economic viability of lignocellulosic ethanol is also dependent of an efficient utilization of the hemicellulosic fraction, which is mainly composed of xylose and may comprise up to 40 % of the total biomass. This major bottleneck is mainly due to the necessity of chemical/enzymatic treatments to hydrolyze hemicellulose into fermentable sugars and to the fact that xylose is not readily consumed by Saccharomyces cerevisiae – the most used organism for large-scale ethanol production. In this work, industrial S. cerevisiae strains, presenting robust traits such as thermotolerance and improved resistance to inhibitors, were evaluated as hosts for the cell-surface display of hemicellulolytic enzymes and optimized xylose assimilation, aiming at the development of whole-cell biocatalysts for consolidated bioprocessing of corn cob-derived hemicellulose. These modifications allowed the direct production of ethanol from non-detoxified hemicellulosic liquor obtained by hydrothermal pretreatment of corn cob, reaching an ethanol titer of 11.1 g/L corresponding to a yield of 0.328 gram per gram of potential xylose and glucose, without the need for external hydrolytic catalysts. Also, consolidated bioprocessing of pretreated corn cob was found to be more efficient for hemicellulosic ethanol production than simultaneous saccharification and fermentation with addition of commercial hemicellulases. These results show the potential of industrial S. cerevisiae strains for the design of whole-cell biocatalysts and paves the way for the development of more efficient consolidated bioprocesses for lignocellulosic biomass valorization, further decreasing environmental and economic costs.

  Cold Spring Harbor Laboratory, 2020年07月, Biotechnology for Biofuels, 13(1) (1), 1 - 15, 英語

  [査読有り]

  研究論文（学術雑誌）


• Optimizing real swine wastewater treatment efficiency and carbohydrate productivity of newly microalga Chlamydomonas sp. QWY37 used for cell-displayed bioethanol production

  Wenying Qu, Pau Loke Show, Tomohisa Hasunuma, Shih-Hsin Ho

  Elsevier BV, 2020年06月, Bioresource Technology, 305, 123072 - 123072, 英語

  [査読有り]

  研究論文（学術雑誌）


• Sequentially addressable dielectrophoretic array for high-throughput sorting of large-volume biological compartments

  1. A. Isozaki, Y. Nakagawa, M. H. Loo, Y. Shibata, N. Tanaka, D. L. Setyaningrum, J.-W. Park, Y. Shirasaki, H. Mikami, D. Huang, H. Tsoi, C. T. Riche, T. Ota, H. Miwa, Y. Kanda, T. Ito, K. Yamada, O. Iwata, K. Suzuki, S. Ohnuki, Y. Ohya, Y. Kato, T. Hasunuma, S. Matsusaka, M. Yamagishi, M. Yazawa, S. Uemura, K. Nagasawa, H. Watarai, D. Di Carlo, K. Goda

  2020年05月, Science Advances, 6, eaba6712, 英語

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  研究論文（学術雑誌）

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• Malic Enzyme Facilitates d-Lactate Production through Increased Pyruvate Supply during Anoxic Dark Fermentation in Synechocystis sp. PCC 6803.

  Ryota Hidese, Mami Matsuda, Takashi Osanai, Tomohisa Hasunuma, Akihiko Kondo

  d-Lactate is one of the most valuable compounds for manufacturing biobased polymers. Here, we have investigated the significance of endogenous malate dehydrogenase (decarboxylating) (malic enzyme, ME), which catalyzes the oxidative decarboxylation of malate to pyruvate, in d-lactate biosynthesis in the cyanobacterium Synechocystis sp. PCC6803. d-Lactate levels were increased by 2-fold in ME-overexpressing strains, while levels in ME-deficient strains were almost equivalent to those in the host strain. Dynamic metabolomics revealed that overexpression of ME led to increased turnover rates in malate and pyruvate metabolism; in contrast, deletion of ME resulted in increased pool sizes of glycolytic intermediates, probably due to sequential feedback inhibition, initially triggered by malate accumulation. Finally, both the loss of the acetate kinase gene and overexpression of endogenous d-lactate dehydrogenase, concurrent with ME overexpression, resulted in the highest production of d-lactate (26.6 g/L) with an initial cell concentration of 75 g-DCW/L after 72 h fermentation.

  2020年02月, ACS synthetic biology, 9(2) (2), 260 - 268, 英語, 国際誌

  [査読有り]

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• Novel strategy for anchorage position control of GPI-attached proteins in the yeast cell wall using different GPI-anchoring domains

  Kentaro Inokuma, Hiroki Kurono, Riaan den, Haan, Willem Heber van Zyl, Tomohisa Hasunuma, Akihiko Kondo

  2020年01月, Metabolic Engineering, 57, 110 - 117, 英語

  [査読有り]

  研究論文（学術雑誌）

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• Dynamic metabolomics for engineering biology: Accelerating learning cycles for bioproduction

  Christopher J. Vavricka, Tomohisa Hasunuma, Akihiko Kondo

  2020年01月, Trends in Biotechnology, 38(1) (1), 68 - 82, 英語

  [査読有り]

  研究論文（学術雑誌）


• Production of 1,2,4-butanetriol from xylose by Saccharomyces cerevisiae through Fe metabolic engineering

  Takahiro Bamba, Takahiro Yukawa, Gregory Guirimand, Kentaro Inokuma, Kengo Sasaki, Tomohisa Hasunuma, Akihiko Kondo

  2019年12月, Metabolic Engineering, 56, 17 - 27, 英語

  [査読有り]

  研究論文（学術雑誌）


• Mechanism-based tuning of insect 3,4-dihydroxyphenylacetaldehyde synthase for synthetic bioproduction of benzylisoquinoline alkaloids

  Christopher J. Vavricka, Takanobu Yoshida, Yuki Kuriya, Shunsuke Takahashi, Teppei Ogawa, Fumie Ono, Kazuko Agari, Hiromasa Kiyota, Jianyong Li, Jun Ishii, Kenji Tsuge, Hiromichi Minami, Michihiro Araki, Tomohisa Hasunuma, Akihiko Kondo

  © 2019, The Author(s). Previous studies have utilized monoamine oxidase (MAO) and L-3,4-dihydroxyphenylalanine decarboxylase (DDC) for microbe-based production of tetrahydropapaveroline (THP), a benzylisoquinoline alkaloid (BIA) precursor to opioid analgesics. In the current study, a phylogenetically distinct Bombyx mori 3,4-dihydroxyphenylacetaldehyde synthase (DHPAAS) is identified to bypass MAO and DDC for direct production of 3,4-dihydroxyphenylacetaldehyde (DHPAA) from L-3,4-dihydroxyphenylalanine (L-DOPA). Structure-based enzyme engineering of DHPAAS results in bifunctional switching between aldehyde synthase and decarboxylase activities. Output of dopamine and DHPAA products is fine-tuned by engineered DHPAAS variants with Phe79Tyr, Tyr80Phe and Asn192His catalytic substitutions. Balance of dopamine and DHPAA products enables improved THP biosynthesis via a symmetrical pathway in Escherichia coli. Rationally engineered insect DHPAAS produces (R,S)-THP in a single enzyme system directly from L-DOPA both in vitro and in vivo, at higher yields than that of the wild-type enzyme. However, DHPAAS-mediated downstream BIA production requires further improvement.

  2019年12月, Nature Communications, 10(1) (1)

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  研究論文（学術雑誌）

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• Short-term temporal metabolic behavior in halophilic cyanobacterium Synechococcus sp. strain PCC 7002 after salt shock

  Shimpei Aikawa, Atsumi Nishida, Tomohisa Hasunuma, Jo-Shu Chang, Akihiko Kondo

  2019年12月, Metabolites, 9(12) (12), 297, 英語

  [査読有り]

  研究論文（学術雑誌）

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• Fermentation of pigment-extracted microalgal residue using yeast cell-surface display: direct high-density ethanol production with competitive life cycle impacts

  Xiaochen Huang, Shunwen Bai, Zhuo Liu, Tomohisa Hasunuma, Akihiko Kondo, Shih-Hsin Ho

  2019年11月, Green Chemistry, 22(1) (1), 153 - 162, 英語

  [査読有り]

  研究論文（学術雑誌）


• A novel process for the mixotrophic production of lutein with Chlorella sorokiniana MB-1-M12 using aquaculture wastewater

  Jih-Heng Chen, Yuichi Kato, Mami Matsuda, Chun-Yen Chen, Dillirani Nagarajan, Tomohisa Hasunuma, Akihiko Kondo, Cheng-Di Dong, Duu-Jong Lee, Jo-Shu Chang

  2019年10月, Bioresource Technology, 290, 121786, 英語

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  研究論文（学術雑誌）


• Single-Stage Astaxanthin Production Enhances the Nonmevalonate Pathway and Photosynthetic Central Metabolism in Synechococcus sp. PCC 7002

  Tomohisa Hasunuma, Ayako Takaki, Mami Matsuda, Yuichi Kato, Christopher J. Vavricka, Akihiko Kondo

  2019年10月, ACS Synthetic Biology, 8, 2701 - 2709, 英語

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  研究論文（学術雑誌）

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• Combined cell surface display of β-D-glucosidase (BGL), maltose transporter (MAL11) and overexpression of cytosolic xylose reductase (XR) in Saccharomyces cerevisiae enhance cellobiose/xylose co-utilization for xylitol bio-production from lignocellulosic

  Gregory G, Y. Guirimand, Takahiro Bamba, Mami Matsuda, Kentaro Inokuma, Kenta Morita, Yuki Kitada, Yuma Kobayashi, Takahiro Yukawa, Kengo Sasaki, Chiaki Ogino, Tomohisa Hasunuma, Akihiko Kondo

  2019年09月, Biotechnology Journal, 14(9) (9), e1800704, 英語

  [査読有り]

  研究論文（学術雑誌）


• Day/night separation of oxygenic energy metabolism and nuclear DNA replication in the unicellular red alga Cyanidioschyzon merolae

  Shin-ya Miyagishima, Atsuko Era, Tomohisa Hasunuma, Mami Matsuda, Shunsuke Hirooka, Nobuko Sumiya, Akihiko Kondo, Takayuki Fujiwara

  2019年07月, mBio, 10(4) (4), e00833-19, 英語

  [査読有り]

  研究論文（学術雑誌）

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• Cell-surface display technology and metabolic engineering of Saccharomyces cerevisiae for enhancing xylitol production from woody biomass

  Gregory Guirimand, Kentaro Inokuma, Takahiro Bamba, Mami Matsuda, Kenta Morita, Kengo Sasaki, Chiaki Ogino, Jean-Guy Berrin, Tomohisa Hasunuma, Akihiko Kondo

  2019年05月, Green Chemistry, 21, 1795 - 1808, 英語

  [査読有り]

  研究論文（学術雑誌）


• Mechanism-based tuning of insect 3,4-dihydroxyphenylacetaldehyde synthase for synthetic bioproduction of benzylisoquinoline alkaloids

  Christopher John, Vavricka Jr, Takanobu Yoshida, Yuki Kuriya, Shunsuke Takahashi, Teppei Ogawa, Fumie Ono, Kazuko Agari, Hiromasa Kiyota, Jianyong Li, Jun Ishii, Kenji Tsuge, Hiromichi Minami, Michihiro Araki, Tomohisa Hasunuma, Akihiko Kondo

  2019年05月, Nature Communications, 10, 2015, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Enhancing lutein production with mixotrophic cultivation of Chlorella sorokiniana MB-1-M12 using different bioprocess operation strategies

  Jih-Heng Chen, Chun-Yen Chen, Tomohisa Hasunuma, Akihiko Kondo, Chien-Hsiang Chang, I-Son Ng, Jo-Shu Chang

  2019年04月, Bioresource Technology, 278, 17 - 25, 英語

  [査読有り]

  研究論文（学術雑誌）


• Increased flux in acetyl-CoA synthetic pathway and TCA cycle of Kluyveromyces marxianus under respiratory conditions

  SAKIHAMA Yuri, HIDESE Ryota, HASUNUMA Tomohisa, KONDO Akihiko

  Yeasts are extremely useful, not only for fermentation but also for a wide spectrum of fuel and chemical productions. We analyzed the overall metabolic turnover and transcript dynamics in glycolysis and the TCA cycle, revealing the difference in adaptive pyruvate metabolic response between a Crabtree-negative species, Kluyveromyces marxianus, and a Crabtree-positive species, Saccharomyces cerevisiae, during aerobic growth. Pyruvate metabolism was inclined toward ethanol production under aerobic conditions in S. cerevisiae, while increased transcript abundances of the genes involved in ethanol metabolism and those encoding pyruvate dehydrogenase were seen in K. marxianus, indicating the augmentation of acetyl-CoA synthesis. Furthermore, different metabolic turnover in the TCA cycle was observed in the two species: malate and fumarate production in S. cerevisiae was higher than in K. marxianus, irrespective of aeration; however, fluxes of both the reductive and oxidative TCA cycles were enhanced in K. marxianus by aeration, implying both the cycles contribute to efficient electron flux without producing ethanol. Additionally, decreased hexokinase activity under aerobic conditions is expected to be important for maintenance of suitable carbon flux. These findings demonstrate differences in the key metabolic trait of yeasts employing respiration or fermentation, and provide important insight into the metabolic engineering of yeasts.

  2019年03月, Scientific Reports, 9(1) (1), 5319 - 5319, 英語, 国際誌

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  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Sustainable production of glutathione from lignocellulose-derived sugars using engineered Saccharomyces cerevisiae

  KOBAYASHI Jyumpei, SASAKI Daisuke, BAMBA Takahiro, HASUNUMA Tomohisa, KONDO Akihiko

  2019年02月, Applied Microbiology and Biotechnology, 103(3) (3), 1243 - 1254, 英語

  [査読有り]

  研究論文（学術雑誌）


• Light/dark cycling causes delayed lipid accumulation and increased photoperiod-based biomass yield by altering metabolic flux in oleaginous Chlamydomonas sp.

  Yuichi KATO, Yusuke FUJIHARA, Christopher J. VAVRICKA, Jo-Shu CHANG, Tomohisa HASUNUMA, Akihiko KONDO

  2019年02月, Biotechnology for Biofuels, 12, 39, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• 5-Hydroxymethylfurfural production from salt-induced photoautotrophically cultivated Chlorella sorokiniana

  AMOAH Jerome, HASUNUMA Tomohisa, OGINO Chiaki, KONDO Akihiko

  2019年02月, Biochemical Engineering Journal, 142, 117 - 123, 英語

  [査読有り]

  研究論文（学術雑誌）


• Deletion of DNA ligase IV homolog confers higher gene targeting efficiency on homologous recombination in Komagataella phaffii

  Yoichiro Ito, Toru Watanabe, Shimpei Aikawa, Teruyuki Nishi, Tozo Nishiyama, Yasuyuki Nakamura, Tomohisa Hasunuma, Yuji Okubo, Jun Ishii, Akihiko Kondo

  Oxford University Press (OUP), 2018年11月, FEMS Yeast Research, 18(7) (7), foy074, 英語

  [査読有り]

  研究論文（学術雑誌）


• Widespread effect of N-acetyl-D-glucosamine assimilation on the metabolisms of amino acids, purines, and pyrimidines in Scheffersomyces stipitis

  INOKUMA Kentaro, MATSUDA Mami, SASAKI Daisuke, HASUNUMA Tomohisa, KONDO Akihiko

  2018年09月, Microbial Cell Factories, 17, 153, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Estimating the protein burden limit of yeast cells by measuring expression limits of glycolytic proteins

  EGUCHI Yuichi, MAKANAE Koji, HASUNUMA Tomohisa, ISHIBASHI Yuko, KITO Keiji, MORIYA Hisao

  2018年08月, eLife, 7, e34595, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Temperature enhanced succinate production concurrent with increased central metabolism turnover in the cyanobacterium Synechocystis sp. PCC 6803

  Tomohisa Hasunuma, Mami Matsuda, Yuichi Kato, Christopher John Vavricka, Akihiko Kondo

  Succinate is a versatile petrochemical compound that can be produced by microorganisms, often from carbohydrate based carbon sources. Phototrophic cyanobacteria including Synechocystis sp. PCC 6803 can more efficiently produce organic acids such as succinate without sugar supplementation, via photosynthetic production of glycogen followed by glycogen utilization, typically under dark conditions. In this study, Synechocystis 6803 bioproduction of organic acids under dark anoxic conditions was found to increase with elevation of temperature from 30 °C to 37 °C. The further enhancement of succinate bioproduction by overexpression of the rate limiting enzyme phosphoenolpyruvate carboxylase resulted in improved glycogen utilization. To gain more insight into the mechanisms underlying the increased organic acid output, a novel temperature dependent metabolomics analysis was performed. Adenylate energy charge was found to decrease along with elevating temperature, while central metabolites glucose 6-phosphate, fructose 6-phosphate, fructose 1,6-bisphosphate, glycerol 3-phosphate, malate, fumarate and succinate increased. Temperature dependent 13C-labeling metabolomics analysis further revealed a glycolysis to TCA bottleneck, which could be overcome by addition of CO2, leading to even higher organic acid production. Optimization of initial cell concentration to 25 g-dry cell weight/L, in combination with 100 mM NaHCO3 supplementation, afforded a succinate titer of over 1.8 g/L, the highest reported autotrophic succinate titer. Succinate titers remained high after additional knockout of ackA, resulting in the highest reported autotrophic D-lactate titer as well. The optimization of Synechocystis 6803 organic acid production therefore holds significant promise for CO2 capture and utilization.

  Academic Press Inc., 2018年07月, Metabolic Engineering, 48, 109 - 120, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• A stable, autonomously replicating plasmid vector containing Pichia pastoris centromeric DNA

  Yasuyuki Nakamura, Teruyuki Nishi, Risa Noguchi, Yoichiro Ito, Toru Watanabe, Tozo Nishiyama, Sinpei Aikawa, Tomohisa Hasunuma, Jun Ishii, Yuji Okubo, Akihiko Kondo

  The methylotrophic yeast Pichia pastoris is widely used to produce recombinant proteins, taking advantage of this species' high-density cell growth and strong ability to secrete proteins. Circular plasmids containing the P. pastoris-specific autonomously replicating sequence (PARS1) permit transformation of P. pastoris with higher efficiency than obtained following chromosomal integration by linearized DNA. Unfortunately, however, existing autonomously replicating plasmids are known to be inherently unstable. In this study, we used transcriptome sequencing (RNA-seq) data and genome sequence information to independently identify, on each of the four chromosomes, centromeric DNA sequences consisting of long inverted repeat sequences. By examining the chromosome 2 centromeric DNA sequence (Cen2) in detail, we demonstrate that an ∼111-bp region located at one end of the putative centromeric sequence had autonomous replication activity. In addition, the full-length Cen2 sequence, which contains two long inverted repeat sequences and a nonrepetitive central core region, is needed for the accurate replication and distribution of plasmids in P. pastoris. Thus, we constructed a new, stable, autonomously replicating plasmid vector that harbors the entire Cen2 sequence; this episome facilitates genetic manipulation in P. pastoris, providing high transformation efficiency and plasmid stability. IMPORTANCE Secretory production of recombinant proteins is the most important application of the methylotrophic yeast Pichia pastoris, a species that permits mass production of heterologous proteins. To date, the genetic engineering of P. pastoris has relied largely on integrative vectors due to the lack of user-friendly tools. Autonomously replicating Pichia plasmids are expected to facilitate genetic manipulation; however, the existing systems, which use autonomously replicating sequences (ARSs) such as the P. pastoris-specific ARS (PARS1), are known to be inherently unstable for plasmid replication and distribution. Recently, the centromeric DNA sequences of P. pastoris were identified in back-to-back studies published by several groups; therefore, a new episomal plasmid vector with centromere DNA as a tool for genetic manipulation of P. pastoris is ready to be developed.

  American Society for Microbiology, 2018年07月, Applied and Environmental Microbiology, 84(15) (15), e02882 - 17, 英語

  [査読有り]

  研究論文（学術雑誌）


• Metabolome analysis-based design and engineering of a metabolic pathway in Corynebacterium glutamicum to match rates of simultaneous utilization of D-glucose and L-arabinose

  KAWAGUCHI Hideo, YOSHIHARA K, HARA KY, HASUNUMA Tomohisa, OGINO Chiaki, KONDO Akihiko

  2018年05月, Microbial Cell Factories, 17, 76, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Mathematical model for small size time series data of bacterial secondary metabolic pathways

  TOMINAGA D, KAWAGUCHI Hideo, HORI Yoshimi, HASUNUMA Tomohisa, OGINO Chiaki, ABURATANI S

  2018年05月, Bioinformatics and Biology Insights, 12, 1 - 7, 英語

  [査読有り]

  研究論文（学術雑誌）


• Genetic and physiological basis for antibody production by Kluyveromyces marxianus

  NAMBU-NISHIDA Yumiko, NISHIDA Keiji, HASUNUMA Tomohisa, KONDO Akihiko

  2018年04月, AMB Express, 8, 56, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Enhanced cell-surface display of a heterologous protein using SED1 anchoring system in SED1-disrupted Saccharomyces cerevisiae strain

  Takahiro Bamba, Kentaro Inokuma, Tomohisa Hasunuma, Akihiko Kondo

  2018年03月, Journal of Bioscience and Bioengineering, 125(3) (3), 306 - 310, 英語

  [査読有り]

  研究論文（学術雑誌）


• Direct and highly productive conversion of cyanobacteria Arthrospira platensis to ethanol with CaCl2 addition

  AIKAWA S, INOKUMA Kentaro, WAKAI Satoshi, SASAKI Kengo, OGINO Chiaki, J. S. Chang, HASUNUMA Tomohisa, KONDO Akihiko

  2018年02月, Biotechnology for Biofuels, 11, 50, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Selection of yeast Saccharomyces cerevisiae promoters available for xylose cultivation and fermentation

  Yumiko Nambu-Nishida, Yuri Sakihama, Jun Ishii, Tomohisa Hasunuma, Akihiko Kondo

  To efficiently utilize xylose, a major sugar component of hemicelluloses, in Saccharomyces cerevisiae requires the proper expression of varied exogenous and endogenous genes. To expand the repertoire of promoters in engineered xylose-utilizing yeast strains, we selected promoters in S. cerevisiae during cultivation and fermentation using xylose as a carbon source. To select candidate promoters that function in the presence of xylose, we performed comprehensive gene expression analyses using xylose-utilizing yeast strains both during xylose and glucose fermentation. Based on microarray data, we chose 29 genes that showed strong, moderate, and weak expression in xylose rather than glucose fermentation. The activities of these promoters in a xylose-utilizing yeast strain were measured by lacZ reporter gene assays over time during aerobic cultivation and microaerobic fermentation, both in xylose and glucose media. In xylose media, PTDH3, PFBA1, and PTDH1 were favorable for high expression, and PSED1, PHXT7, PPDC1, PTEF1, PTPI1, and PPGK1 were acceptable for medium–high expression in aerobic cultivation, and moderate expression in microaerobic fermentation. PTEF2 allowed moderate expression in aerobic culture and weak expression in microaerobic fermentation, although it showed medium–high expression in glucose media. PZWF1 and PSOL4 allowed moderate expression in aerobic cultivation, while showing weak but clear expression in microaerobic fermentation. PALD3 and PTKL2 showed moderate promoter activity in aerobic cultivation, but showed almost no activity in microaerobic fermentation. The knowledge of promoter activities in xylose cultivation obtained in this study will permit the control of gene expression in engineered xylose-utilizing yeast strains that are used for hemicellulose fermentation.

  Elsevier B.V., 2018年01月, Journal of Bioscience and Bioengineering, 125(1) (1), 76 - 86, 英語

  [査読有り]

  研究論文（学術雑誌）


• Improvement of Xylose Fermentation Ability under Heat and Acid Co-Stress in Saccharomyces cerevisiae Using Genome Shuffling Technique

  Kentaro Inokuma, Ryo Iwamoto, Takahiro Bamba, Tomohisa Hasunuma, Akihiko Kondo

  2017年12月, Frontiers in Bioengineering and Biotechnology, 5, 81, 英語

  [査読有り]

  研究論文（学術雑誌）


• Evolutionary engineering of salt-resistant Chlamydomonas sp strains reveals salinity stress-activated starch-to-lipid biosynthesis switching

  Yuichi Kato, Shih-Hsin Ho, Christopher J. Vavricka, Jo-Shu Chang, Tomohisa Hasunuma, Akihiko Kondo

  The aim of this study was to improve biomass production of the green microalga Chlamydomonas sp. JSC4 under high salinity conditions. For this purpose, heavy ion beam-coupled mutagenesis and evolutionary engineering were performed using JSC4 as the parent strain. After long-term and continuous cultivation with high salinity, salt-resistant strains that grow well even in the presence of 7% sea salt were successfully obtained. Transcriptional analysis revealed inactivation of starch-to-lipid biosynthesis switching, which resulted in delayed starch degradation and decreased lipid content in the salt-resistant strains. Cellular aggregation and hypertrophy during high salinity were relieved in these strains, indicating strong resistance to salt stress. These results suggest that high salinity stress, not the salinity condition itself, is important for activating lipid accumulation mechanisms in microalgae. (C) 2017 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2017年12月, BIORESOURCE TECHNOLOGY, 245(part B) (part B), 1484 - 1490, 英語

  [査読有り]

  研究論文（学術雑誌）


• Conversion of Chlamydomonas sp JSC4 lipids to biodiesel using Fusarium heterosporum lipase-expressing Aspergillus oryzae whole-cell as biocatalyst

  Jerome Amoah, Shih-Hsin Ho, Shinji Hama, Ayumi Yoshida, Akihito Nakanishi, Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  Lipid from Chlamydomonas sp. JSC4 was used as a feedstock for biodiesel production. The lipid was found to contain high amounts of phospholipids and free fatty acid in addition to the triglycerides. Two enzymatic methods for the efficient conversion of the heterogenous lipid to fatty acid methyl esters (FAME) were carried out. The method using either a lipase cocktail containing Candida cylindracea lipase and Thermomyces lanuginosus lipase combination (m I) or immobilized Fusarium heterosporum lipase-expressing Aspergillus oryzae whole-cells (m II) were both successful. However, the method using lipase cocktail showed 30.8% relative stability after the fourth batch, whereas the whole-cell biocatalyst showed 98.1%. Although the whole-cell biocatalyst tolerated a wide range of water content, an exploration of the effect of water-methanol interaction on the biocatalytic process showed that 24% water and 7: 1 methanol to oil ratio is more favorable for FAME production. A higher initial methanol consumption rate facilitated a more stable system with the whole-cell biocatalyst, producing over 97% FAME in 32 h. The efficient conversion of a highly heterogenous substrate in the presence of high amounts of water could be an effective technique for the enzymatic conversion of microalgal lipids.

  ELSEVIER SCIENCE BV, 2017年12月, ALGAL RESEARCH-BIOMASS BIOFUELS AND BIOPRODUCTS, 28, 16 - 23, 英語

  [査読有り]

  研究論文（学術雑誌）


• Quantitative metabolomics of a xylose‑utilizing Saccharomyces cerevisiae strain expressing the Bacteroides thetaiotaomicron xylose isomerase on glucose and xylose

  MERT MJ, ROSE SH, La GRANGE DC, BAMBA Takahiro, HASUNUMA Tomohisa, KONDO Akihiko, van ZYL WH

  The yeast Saccharomyces cerevisiae cannot utilize xylose, but the introduction of a xylose isomerase that functions well in yeast will help overcome the limitations of the fungal oxido-reductive pathway. In this study, a diploid S. cerevisiae S288c[2n YMX12] strain was constructed expressing the Bacteroides thetaiotaomicron xylA (XI) and the Scheffersomyces stipitis xyl3 (XK) and the changes in the metabolite pools monitored over time. Cultivation on xylose generally resulted in gradual changes in metabolite pool size over time, whereas more dramatic fluctuations were observed with cultivation on glucose due to the diauxic growth pattern. The low G6P and F1,6P levels observed with cultivation on xylose resulted in the incomplete activation of the Crabtree effect, whereas the high PEP levels is indicative of carbon starvation. The high UDP-d-glucose levels with cultivation on xylose indicated that the carbon was channeled toward biomass production. The adenylate and guanylate energy charges were tightly regulated by the cultures, while the catabolic and anabolic reduction charges fluctuated between metabolic states. This study helped elucidate the metabolite distribution that takes place under Crabtree-positive and Crabtree-negative conditions when cultivating S. cerevisiae on glucose and xylose, respectively.

  SPRINGER HEIDELBERG, 2017年10月, Journal of Industrial Microbiology and Biotechnology, 44(10) (10), 1459 - 1470, 英語

  [査読有り]

  研究論文（学術雑誌）


• Synthesis of sulfo-sialic acid analogues: potent neuraminidase inhibitors in regards to anomeric functionality

  VAVRICKA JR, JOHN, CHRISTOPHER, MUTO C, HASUNUMA Tomohisa, KIMURA Y, ARAKI Michihiro, WU Y, GAO GF, OHRUI H, IZUMI M, KIYOTA H

  2017年08月, Scientific Reports, 7(1) (1), 8239, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Development of a comprehensive set of tools for genome engineering in a cold- and thermo-tolerant Kluyveromyces marxianus yeast strain

  NAMBU-NISHIDA Yumiko, NISHIDA Keiji, HASUNUMA Tomohisa, KONDO Akihiko

  2017年08月, Scientific Reports, 7(1) (1), 8993, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Improvement of ethanol production from crystalline cellulose via optimizing cellulase ratios in cellulolytic Saccharomyces cerevisiae

  Zhuo Liu, Kentaro Inokuma, Shih-Hsin Ho, Riaan den Haan, Willem H. van Zyl, Tomohisa Hasunuma, Akihiko Kondo

  Crystalline cellulose is one of the major contributors to the recalcitrance of lignocellulose to degradation, necessitating high dosages of cellulase to digest, thereby impeding the economic feasibility of cellulosic biofuels. Several recombinant cellulolytic yeast strains have been developed to reduce the cost of enzyme addition, but few of these strains are able to efficiently degrade crystalline cellulose due to their low cellulolytic activities. Here, by combining the cellulase ratio optimization with a novel screening strategy, we successfully improved the cellulolytic activity of a Saccharomyces cerevisiae strain displaying four different synergistic cellulases on the cell surface. The optimized strain exhibited an ethanol yield from Avicel of 57% of the theoretical maximum, and a 60% increase of ethanol titer from rice straw. To our knowledge, this work is the first optimization of the degradation of crystalline cellulose by tuning the cellulase ratio in a cellulase cell-surface display system. This work provides key insights in engineering the cellulase cocktail in a consolidated bioprocessing yeast strain. Biotechnol. Bioeng. 2017;114: 1201-1207. (c) 2017 Wiley Periodicals, Inc.

  WILEY, 2017年06月, BIOTECHNOLOGY AND BIOENGINEERING, 114(6) (6), 1201 - 1207, 英語

  [査読有り]

  研究論文（学術雑誌）


• Dynamic metabolic profiling together with transcription analysis reveals salinity-induced starch-to-lipid biosynthesis in alga Chlamydomonas sp. JSC4

  HO SHIH-HSIN, NAKANISHI Akihito, KATO Yuichi, YAMASAKI H, CHANG JS, MISAWA N, HIROSE Y, MINAGAWA J, HASUNUMA Tomohisa, KONDO Akihiko

  2017年04月, Scientific Reports, 4(7) (7), 45471, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Simultaneous conversion of free fatty acids and triglycerides to biodiesel by immobilized Aspergillus oryzae expressing Fusarium heterosporum lipase

  AMOAH JEROME, EMMANUEL QUAYSON, HAMA S, YOSHIDA A, HASUNUMA Tomohisa, OGINO Chiaki, KONDO Akihiko

  2017年03月, Biotechnology Journal, 12(3) (3), 1600400, 英語

  [査読有り]

  研究論文（学術雑誌）


• Mapping of endoglucanases displayed on yeast cell surface using atomic force microscopy

  Musashi Takenaka, Takuya Kobayashi, Kentaro Inokuma, Tomohisa Hasunuma, Tatsuo Maruyama, Chiaki Ogino, Akihiko Kondo

  The surface of yeast cells has been an attractive interface for the effective use of cellulose. Surface enzymes, however, are difficult to visualize and evaluate. In this study, two kinds of unique anchoring regions were used to display the cellulase, endoglucanase (EG), on a yeast cell surface. Differences in the display level and the localization of EG were observed by atomic force microscopy. By surveying the yeast cell surface with a chemically modified cantilever, the interactive force between the cellulose and EG was measured. Force curve mapping revealed differences in the display levels and the localization of EG according to anchoring regions. The proposed methodology enables visualization of displayed enzymes such as EG on the yeast cell surface. (C) 2016 Elsevier B.V. All rights reserved.

  ELSEVIER SCIENCE BV, 2017年03月, COLLOIDS AND SURFACES B-BIOINTERFACES, 151, 134 - 142, 英語

  [査読有り]

  研究論文（学術雑誌）


• Enzymatic improvement of mitochondrial thiol oxidase Erv1 for oxidized glutathione fermentation by Saccharomyces cerevisiae

  KOBAYASHI Jyumpei, SASAKI Daisuke, HARA Y Kiyotaka, HASUNUMA Tomohisa, KONDO Akihiko

  2017年03月, Microbial Cell Factories, 16, 44, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• A systematic approach to time-series metabolite profiling and RNA-seq analysis of Chinese hamster ovary cell culture

  HSU H, ARAKI Michihiro, MOCHIZUKI Masao, HORI Yoshimi, MURATA Masahiro, PRIHARDI Kahar, YOSHIDA Takanobu, HASUNUMA Tomohisa, KONDO Akihiko

  2017年03月, Scientific Reports, 7, 43518, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Application of THz Vibrational Spectroscopy to Molecular Characterization and the Theoretical Fundamentals: An Illustration Using Saccharide Molecules

  Feng Zhang, Houng-Wei Wang, Keisuke Tominaga, Michitoshi Hayashi, Tomohisa Hasunuma, Akihiko Kondo

  This work illustrates several theoretical fundamentals for the application of THz vibrational spectroscopy to molecular characterization in the solid state using two different types of saccharide systems as examples. Four subjects have been specifically addressed: (1) the qualitative differences in the molecular vibrational signatures monitored by THz and mid-IR vibrational spectroscopy; (2) the selection rules for THz vibrational spectroscopy as applied to crystalline and amorphous systems; (3) a normal mode simulation, using a-l-xylose as an example; and (4) a rigorous mode analysis to quantify the percentage contributions of the intermolecular and intramolecular vibrations to the normal mode of interest.

  WILEY-V C H VERLAG GMBH, 2017年02月, CHEMISTRY-AN ASIAN JOURNAL, 12(3) (3), 324 - 331, 英語

  [査読有り]

  研究論文（学術雑誌）


• Application of LC-MS/MS analysis for time-lapse amino acid metabolomics in CHO cell culture.

  Hsu H, HASUNUMA Tomohisa, Araki Michihiro, Yoshida Takanobu, Hori Yoshimi, Murata Masahiro, KONDO Akihiko

  2017年02月, Shimadzu Journal, 5(1) (1), 17 - 21, 英語

  [査読有り]

  研究論文（学術雑誌）


• Erratum for Inokuma et al., Complete genome sequence of Kluyveromyces marxianus NBRC1777, a nonconventional thermotolerant yeast [3, 2, e00389-15 (1-1) (2015)]

  Kentaro Inokuma, Jun Ishii, Kiyotaka Y. Hara, Masao Mochizuki, Tomohisa Hasunuma, Akihiko Kondo

  Volume 3, no. 2, e00389-15, 2015. Page 1, column 1, lines 26 and 27: "silencing mediator for retinoic acid and thyroid hormone receptor" should read "singlemolecule real-time."

  American Society for Microbiology, 2017年, Genome Announcements, 5(5) (5), 英語

  [査読有り]

  研究論文（学術雑誌）


• A RuBisCO-mediated carbon metabolic pathway in methanogenic archaea

  KONO T, MEHROTRA S, ENDO C, KIZU N, MATSUDA Mami, KIMURA H, MIZOHATA E, INOUE T, HASUNUMA Tomohisa, YOKOTA A, MATSUMURA H, AHIDA H

  2017年01月, Nature Communications, 8, 14007, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Succinate and lactate production from Euglena gracilis during dark, anaerobic conditions.

  Tomita Y, Yoshioka K, Iijima H, Nakashima A, Iwata O, Suzuki K, HASUNUMA Tomohisa, KONDO Akihiko, HIRAI MY, OSANAI T

  2016年12月, Frontiers in Microbiology, 7, 2050, 英語

  [査読有り]

  研究論文（学術雑誌）


• Bioprocessing of bio-based chemicals produced from lignocellulosic feedstocks

  Hideo Kawaguchi, Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  The feedstocks used for the production of bio-based chemicals have recently expanded from edible sugars to inedible and more recalcitrant forms of lignocellulosic biomass. To produce biobased chemicals from renewable polysaccharides, several bioprocessing approaches have been developed and include separate hydrolysis and fermentation (SHF), simultaneous saccharification and fermentation (SSF), and consolidated bioprocessing (CBP). In the last decade, SHF, SSF, and CBP have been used to generate macromolecules and aliphatic and aromatic compounds that are capable of serving as sustainable, drop-in substitutes for petroleum-based chemicals. The present review focuses on recent progress in the bioprocessing of microbially produced chemicals from renewable feedstocks, including starch and lignocellulosic biomass. In particular, the technological feasibility of bio-based chemical production is discussed in terms of the feedstocks and different bioprocessing approaches, including the consolidation of enzyme production, enzymatic hydrolysis of biomass, and fermentation.

  CURRENT BIOLOGY LTD, 2016年12月, CURRENT OPINION IN BIOTECHNOLOGY, 42, 30 - 39, 英語

  [査読有り]

  研究論文（学術雑誌）


• Production of fuels and chemicals from biomass by integrated bioprocesses

  Tomohisa Hasunuma, Akihiko Kondo

  Wiley-VCH Verlag, 2016年11月, Industrial Biotechnology: Products and Processes, 161 - 185, 英語

  [査読有り]

  論文集(書籍)内論文


• Primary Metabolism during Biosynthesis of Secondary Wall Polymers of Protoxylem Vessel Elements

  Misato Ohtani, Keiko Morisaki, Yuji Sawada, Ryosuke Sano, Abigail Loren Tung Uy, Atsushi Yamamoto, Tetsuya Kurata, Yoshimi Nakano, Shiro Suzuki, Mami Matsuda, Tomohisa Hasunuma, Masami Yokota Hirai, Taku Demura

  Xylem vessels, the water-conducting cells in vascular plants, undergo characteristic secondary wall deposition and programmed cell death. These processes are regulated by the VASCULAR-RELATED NAC-DOMAIN (VND) transcription factors. Here, to identify changes in metabolism that occur during protoxylem vessel element differentiation, we subjected tobacco (Nicotiana tabacum) BY-2 suspension culture cells carrying an inducible VND7 system to liquid chromatography-mass spectrometry-based wide-target metabolome analysis and transcriptome analysis. Time-course data for 128 metabolites showed dynamic changes in metabolites related to amino acid biosynthesis. The concentration of glyceraldehyde 3-phosphate, an important intermediate of the glycolysis pathway, immediately decreased in the initial stages of cell differentiation. As cell differentiation progressed, specific amino acids accumulated, including the shikimate-related amino acids and the translocatable nitrogen-rich amino acid arginine. Transcriptome data indicated that cell differentiation involved the active up-regulation of genes encoding the enzymes catalyzing fructose 6-phosphate biosynthesis from glyceraldehyde 3-phosphate, phosphoenolpyruvate biosynthesis from oxaloacetate, and phenylalanine biosynthesis, which includes shikimate pathway enzymes. Concomitantly, active changes in the amount of fructose 6-phosphate and phosphoenolpyruvate were detected during cell differentiation. Taken together, our results show that protoxylem vessel element differentiation is associated with changes in primary metabolism, which could facilitate the production of polysaccharides and lignin monomers and, thus, promote the formation of the secondary cell wall. Also, these metabolic shifts correlate with the active transcriptional regulation of specific enzyme genes. Therefore, our observations indicate that primary metabolism is actively regulated during protoxylem vessel element differentiation to alter the cell's metabolic activity for the biosynthesis of secondary wall polymers.

  AMER SOC PLANT BIOLOGISTS, 2016年11月, PLANT PHYSIOLOGY, 172(3) (3), 1612 - 1624, 英語

  [査読有り]

  研究論文（学術雑誌）


• Moderate Heat Stress Stimulates Repair of Photosystem II During Photoinhibition in Synechocystis sp PCC 6803

  Mamoru Ueno, Penporn Sae-Tang, Yuri Kusama, Yukako Hihara, Mami Matsuda, Tomohisa Hasunuma, Yoshitaka Nishiyama

  Examination of the effects of high temperature on the photoinhibition of photosystem II (PSII) in the cyanobacterium Synechocystis sp. PCC 6803 revealed that the extent of photoinhibition of PSII was lower at moderately high temperatures (35-42 degrees C) than at 30 degrees C. Photodamage to PSII, as determined in the presence of chloramphenicol, which blocks the repair of PSII, was accelerated at the moderately high temperatures but the effects of repair were greater than those of photodamage. The synthesis de novo of the D1 protein, which is essential for the repair of PSII, was enhanced at 38 degrees C. Electron transport and the synthesis of ATP were also enhanced at 38 degrees C, while levels of reactive oxygen species fell. Inhibition of the Calvin-Benson cycle with glycolaldehyde abolished the enhancement of repair of PSII at 38 degrees C, suggesting that an increase in the activity of the Calvin-Benson cycle might be required for the enhancement of repair at moderately high temperatures. The synthesis de novo of metabolic intermediates of the Calvin-Benson cycle, such as 3-phosphoglycerate, was also enhanced at 38 degrees C. We propose that moderate heat stress might enhance the repair of PSII by stimulating the synthesis of ATP and depressing the production of reactive oxygen species, via the stimulation of electron transport and suppression of the accumulation of excess electrons on the acceptor side of photosystem I, which might be driven by an increase in the activity of the Calvin-Benson cycle.

  OXFORD UNIV PRESS, 2016年11月, PLANT AND CELL PHYSIOLOGY, 57(11) (11), 2417 - 2426, 英語

  [査読有り]

  研究論文（学術雑誌）


• High-speed scanning for the quantitative evaluation of glycogen concentration in bioethanol feedstock Synechocystis sp. PCC6803 by a near-infrared hyperspectral imaging system with a new near-infrared spectral camera.

  Ishigaki M, Nakanishi A, HASUNUMA Tomohisa, KONDO Akihiko, MORISHIMA T, OKUNO T, OZAKI Y

  2016年11月, Applied Spectroscopy, 71(3) (3), 463 - 471, 英語

  [査読有り]

  研究論文（学術雑誌）


• Enhanced Cell-Surface Display and Secretory Production of Cellulolytic Enzymes With Saccharomyces cerevisiae Sed1 Signal Peptide

  Kentaro Inokuma, Takahiro Bamba, Jun Ishii, Yoichiro Ito, Tomohisa Hasunuma, Akihiko Kondo

  Recombinant yeast strains displaying aheterologous cellulolytic enzymes on their cell surfaces using a glycosylphosphatidylinositol (GPI) anchoring system are a promising strategy for bioethanol production from lignocellulosic materials. A crucial step for cell wall localization of the enzymes is the intracellular transport of proteins in yeast cells. Therefore, the addition of a highly efficient secretion signal sequence is important to increase the amount of the enzymes on the yeast cell surface. In this study, we demonstrated the effectiveness of a novel signal peptide (SP) sequence derived from the Saccharomyces cerevisiae SED1 gene for cell-surface display and secretory production of cellulolytic enzymes. Gene cassettes with SP sequences derived fromS. cerevisiae SED1 (SED1SP), Rhizopus oryzae glucoamylase (GLUASP), and S. cerevisiae alpha-mating pheromone (MF alpha 1SP) were constructed for cell-surface display of Aspergillus aculeatus beta-glucosidase (BGL1) and Trichoderma reesei endoglucanase II (EGII). These gene cassettes were integrated into the S. cerevisiae genome. The recombinant strains with the SED1SP showed higher cell-surface BGL and EG activities than those with the conventional SP sequences (GLUASP and MF alpha 1SP). The novel SP sequence also improved the secretory production of BGL and EG in S. cerevisiae. The extracellular BGL activity of the recombinant strains with the SED1SP was 1.3- and 1.9-fold higher than the GLUASP and MF alpha 1SP strains, respectively. Moreover, the utilization of SED1SP successfully enhanced the secretory production of BGL in Pichia pastoris. The utilization of the novel SP sequence is a promising option for highly efficient cell-surface display and secretory production of heterologous proteins in various yeast species. (C) 2016 Wiley Periodicals, Inc.

  WILEY-BLACKWELL, 2016年11月, BIOTECHNOLOGY AND BIOENGINEERING, 113(11) (11), 2358 - 2366, 英語

  [査読有り]

  研究論文（学術雑誌）


• Ethanol production from N-acetyl-D-glucosamine by Scheffersomyces stipitis strains

  Kentaro Inokuma, Tomohisa Hasunuma, Akihiko Kondo

  N-acetyl-D-glucosamine (GlcNAc) is the building block of chitin, which is one of the most abundant renewable resources in nature after cellulose. Therefore, a microorganism that can utilize GlcNAc is necessary for chitin-based biorefinery. In this study, we report on the screening and characterization of yeast strains for bioethanol production from GlcNAc. We demonstrate that Scheffersomyces (Pichia) stipitis strains can use GlcNAc as the sole carbon source and produce ethanol. S. stipitis NBRC1687, 10007, and 10063 strains consumed most of the 50 g/L GlcNAc provided, and produced 14.5 +/- 0.6, 15.0 +/- 0.3, and 16.4 +/- 0.3 g/L of ethanol after anaerobic fermentation at 30 degrees C for 96 h. The ethanol yields of these strains were approximately 81, 75, and 82 % (mol ethanol/mol GlcNAc consumed), respectively. Moreover, S. stipitis NBRC10063 maintained high GlcNAc-utilizing capacity at 35 degrees C, and produced 12.6 +/- 0.7 g/L of ethanol after 96 h. This strain also achieved the highest ethanol titer (23.3 +/- 1.0 g/L) from 100 g/L GlcNAc. To our knowledge, this is the first report on ethanol production via fermentation of GlcNAc by naturally occurring yeast strains.

  BIOMED CENTRAL LTD, 2016年10月, AMB EXPRESS, 6, 83, 英語

  [査読有り]

  研究論文（学術雑誌）


• Recent advances in yeast cell-surface display technologies for waste biorefineries

  Zhuo Liu, Shih-Hsin Ho, Tomohisa Hasunuma, Jo-Shu Chang, Nan-Qi Ren, Akihiko Kondo

  Waste biorefinery aims to maximize the output of value-added products from various artificial/agricultural wastes by using integrated bioprocesses. To make waste biorefinery economically feasible, it is thus necessary to develop a low-cost, environment-friendly technique to perform simultaneous biodegradation and bioconversion of waste materials. Cell-surface display engineering is a novel, cost-effective technique that can auto-immobilize proteins on the cell exterior of microorganisms, and has been applied for use with waste biofinery. Through tethering different enzymes (e.g., cellulase, lipase, and protease) or metal-binding peptides on cell surfaces, various yeast strains can effectively produce biofuels and biochemicals from sugar/protein-rich waste materials, catalyze waste oils into biodiesels, or retrieve heavy metals from wastewater. This review critically summarizes recent applications of yeast cell-surface display on various types of waste biorefineries, highlighting its potential and future challenges with regard to commercializing this technology. (C) 2016 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2016年09月, BIORESOURCE TECHNOLOGY, 215, 324 - 333, 英語

  [査読有り]

  研究論文（学術雑誌）


• Metabolomics-based analysis revealing the alteration of primary carbon metabolism by the genetic manipulation of a hydrogenase HoxH in Synechocystissp.PCC 6803.

  Iijima H, Shirai T, Okamoto M, Pinto F, Tamagnini P, Hasunuma Tomohisa, KONDO Akihiko, HIRAI Y, OSANAI T

  Cyanobacterial hydrogenases are important owing to the association between hydrogen metabolism and cell physiology and the production of future renewable energy. Many studies have examined hydrogen productivity, transcriptional regulation of hydrogenases, and the biochemistry of hydrogenases; however the relationship between hydrogen and primary carbon metabolism using metabolomic techniques has not been elucidated. Here, we studied the effect of the genetic manipulation of a hydrogenase on primary carbon metabolism in the model unicellular cyanobacterium Synechocystis sp. PCC 6803. Metabolomic analysis revealed that the hoxH mutant with reduced hoxH transcripts exhibited increased sugar phosphates in dark, anaerobic conditions. Organic acids, lactate, succinate, fumarate, and malate increased substantially by the hoxH mutation both inside and outside of cells in dark, anaerobic conditions. Transcriptome analysis revealed higher expression of genes encoding the RNA polymerase sigma factor SigE, which is a positive regulator of sugar catabolism, and 6-phosphogluconate dehydrogenase in the hoxH mutant than in the wild-type strain. Immunoblotting results showed that sugar catabolic enzymes and SigE proteins increased in the hoxH mutant. These results demonstrate the wide alterations of primary metabolism by the genetic manipulation of a hydrogenase subunit in this cyanobacterium. (C) 2016 Elsevier B.V. All rights reserved.

  ELSEVIER SCIENCE BV, 2016年09月, Algal Research, 18, 305 - 313, 英語

  [査読有り]

  研究論文（学術雑誌）


• Improving carbohydrate production of Chlorella sorokiniana NIES-2168 through semi-continuous process coupled with mixotrophic cultivation

  Yue Wang, Sheng-Yi Chiu, Shih-Hsin Ho, Zhuo Liu, Tomohisa Hasunuma, Ting-Ting Chang, Kuan-Fu Chang, Jo-Shu Chang, Nan-Qi Ren, Akihiko Kondo

  Biofuels from microalgae is now a hot issue of great potential. However, achieving high starch productivity with photoautotrophic microalgae is still challenging. A feasible approach to enhance the growth and target product of microalgae is to conduct mixotrophic cultivation. The appropriate acetate addition combined with CO2 supply as dual carbon sources (i.e., mixotrophic cultivation) could enhance the cell growth of some microalgae species, but the effect of acetate-mediated mixotrophic culture mode on carbohydrate accumulation in microalgae remains unclear. Moreover, there is still lack of the information concerning how to increase the productivity of carbohydrates from microalgae under acetate-amended mixotrophic cultivation and how to optimize the engineering strategies to achieve the goal. This study was undertaken to develop an optimal acetate-contained mixotrophic cultivation system coupled with effective operation strategies to markedly improve the carbohydrate productivity of Chlorella sorokiniana NIES-2168. The optimal carbohydrate productivity of 695 mg/L/d was obtained, which is the highest value ever reported. The monosaccharide in the accumulated carbohydrates is mainly glucose (i.e., 85-90%), which is very suitable for bio-alcohols fermentation. Hence, by applying the optimal process developed in this study, C. sorokiniana NIES-2168 has a high potential to serve as a feedstock for subsequent biofuels conversion.

  WILEY-V C H VERLAG GMBH, 2016年08月, BIOTECHNOLOGY JOURNAL, 11(8) (8), 1072 - 1081, 英語

  [査読有り]

  研究論文（学術雑誌）


• Lipase cocktail for efficient conversion of oils containing phospholipids to biodiesel

  Jerome Amoah, Shih-Hsin Ho, Shinji Hama, Ayumi Yoshida, Akihito Nakanishi, Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  The presence of phospholipid has been a challenge in liquid enzymatic biodiesel production. Among six lipases that were screened, lipase AY had the highest hydrolysis activity and a competitive transesterification activity. However, it yielded only 21.1% FAME from oil containing phospholipids. By replacing portions of these lipases with a more robust bioFAME lipase, CalT, the combination of lipase AY-CalT gave the highest FAME yield with the least amounts of free fatty acids and partial glycerides. A higher methanol addition rate reduced FAME yields for lipase DF-CalT and A10D-CalT combinations while that of lipase AY-CalT combination improved. Optimizing the methanol addition rate for lipase AY-CalT resulted in a FAME yield of 88.1% at 2 h and more than 95% at 6 h. This effective use of lipases could be applied for the rapid and economic conversion of unrefined oils to biodiesel. (C) 2016 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2016年07月, BIORESOURCE TECHNOLOGY, 211, 224 - 230, 英語

  [査読有り]

  研究論文（学術雑誌）


• Improved sugar-free succinate production by Synechocystis sp. PCC 6803 following identification of the limiting steps in glycogen catabolism.

  HASUNUMA Tomohisa, MATSUDA Mami, KONDO Akihiko

  2016年05月, Metabolic Engineering Communications, 3, 130 - 141, 英語

  [査読有り]

  研究論文（学術雑誌）


• Engineering of a novel cellulose-adherent cellulolytic Saccharomyces cerevisiae for cellulosic biofuel production.

  Liu Z, Ho S.H, Sasaki Kengo, Haan R, Inokuma Kentaro, Ogino Chiaki, van Zyl W.H, Hasunuma Tomohisa, Kondo Akihiko

  2016年04月, Scientific Reports, 6, 24550, 英語

  [査読有り]

  研究論文（学術雑誌）


• Cell surface engineering of Saccharomyces cerevisiae combined with membrane separation technology for xylitol production from rice straw hydrolysate

  Gregory Guirimand, Kengo Sasaki, Kentaro Inokuma, Takahiro Bamba, Tomohisa Hasunuma, Akihiko Kondo

  Xylitol, a value-added polyol deriving from D-xylose, is widely used in both the food and pharmaceutical industries. Despite extensive studies aiming to streamline the production of xylitol, the manufacturing cost of this product remains high while demand is constantly growing worldwide. Biotechnological production of xylitol from lignocellulosic waste may constitute an advantageous and sustainable option to address this issue. However, to date, there have been few reports of biomass conversion to xylitol. In the present study, xylitol was directly produced from rice straw hydrolysate using a recombinant Saccharomyces cerevisiae YPH499 strain expressing cytosolic xylose reductase (XR), along with beta-glucosidase (BGL), xylosidase (XYL), and xylanase (XYN) enzymes (co-) displayed on the cell surface; xylitol production by this strain did not require addition of any commercial enzymes. All of these enzymes contributed to the consolidated bioprocessing (CBP) of the lignocellulosic hydrolysate to xylitol to produce 5.8 g/L xylitol with 79.5 % of theoretical yield from xylose contained in the biomass. Furthermore, nanofiltration of the rice straw hydrolysate provided removal of fermentation inhibitors while simultaneously increasing sugar concentrations, facilitating high concentration xylitol production (37.9 g/L) in the CBP. This study is the first report (to our knowledge) of the combination of cell surface engineering approach and membrane separation technology for xylitol production, which could be extended to further industrial applications.

  SPRINGER, 2016年04月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 100(8) (8), 3477 - 3487, 英語

  [査読有り]

  研究論文（学術雑誌）


• FudC, a protein primarily responsible for furfural detoxification in Corynebacterium glutamicum

  Yota Tsuge, Motonori Kudou, Hideo Kawaguchi, Jun Ishii, Tomohisa Hasunuma, Akihiko Kondo

  Lignocellulosic hydrolysates contain compounds that inhibit microbial growth and fermentation, thereby decreasing the productivity of biofuel and biochemical production. In particular, the heterocyclic aldehyde furfural is one of the most toxic compounds found in these hydrolysates. We previously demonstrated that Corynebacterium glutamicum converts furfural into the less toxic compounds furfuryl alcohol and 2-furoic acid. To date, however, the genes involved in these oxidation and reduction reactions have not been identified in the C. glutamicum genome. Here, we show that Cgl0331 (designated FudC) is mainly responsible for the reduction of furfural into furfuryl alcohol in C. glutamicum. Deletion of the gene encoding FudC markedly diminished the in vivo reduction of furfural to furfuryl alcohol. Purified His-tagged FudC protein from Escherichia coli was also shown to convert furfural into furfuryl alcohol in an in vitro reaction utilizing NADPH, but not NADH, as a cofactor. Kinetic measurements demonstrated that FudC has a high affinity for furfural but has a narrow substrate range for other aldehydes compared to the protein responsible for furfural reduction in E. coli.

  SPRINGER, 2016年03月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 100(6) (6), 2685 - 2692, 英語

  [査読有り]

  研究論文（学術雑誌）


• Disruption of PHO13 improves ethanol production via the xylose isomerase pathway

  BAMBA Takahiro, HASUNUMA Tomohisa, KONDO Akihiko

  2016年03月, AMB Express, 6(1) (1), 4, 英語

  [査読有り]

  研究論文（学術雑誌）


• リグノセルロース系バイオマスの同時糖化発酵によるフェニル乳酸生産(微生物利用の新展開,口頭セッション)

  川口,秀夫, 寺村,浩, 中村,聡子, 荻野,千秋, 原,清敬, 蓮沼,誠久, 老沼,研一, 高谷,直樹, 平野,恒, 佐塚,隆志, 北野,英己, 近藤,昭彦

  Sorghum bagasse pretreated with diluted acid, which was predominantly composed of glucan (59%) and xylan (7.2%), was used as a lignocellulosic feedstock to produce D-phenyllactic acid (PhLA) by a recombinant Escherichia coli strain expressing phenylpyruvate reductase from Wickerhamia fluorescens. Compared to filter paper hydrolysate, the PhLA yield was reduced by 35% during fermentation with enzymatic hydrolysate of sorghum bagasse as a carbon source, and metabolomics analysis revealed that intracellular levels of erythrose-4-phosphate and phosphoenolpyruvate and NAD(P)H regeneration for PhLA production from glucose markedly reduced. Compared to the separate hydrolysis and fermentation (SHF) with sorghum bagasse hydrolysate, simultaneous saccharification and fermentation (SSF) of sorghum bagasse under glucose limitation conditions yielded 4.8-fold more PhLA with less accumulation of eluted components of p-coumaric acid and aldehydes, which inhibited PhLA fermentation. These results suggest that gradual hydrolysis of sorghum bagasse during SSF reduces the accumulation of both glucose and fermentation inhibitors, collectively leading to increased PhLA yield.

  一般社団法人 日本エネルギー学会, 2016年01月, バイオマス科学会議発表論文集, 11, 35 - 36, 日本語

  [査読有り]

  研究論文（国際会議プロシーディングス）


• Inverse metabolic engineering based on transient acclimation of yeast improves acid-containing xylose fermentation and tolerance to formic and acetic acids

  Tomohisa Hasunuma, Takatoshi Sakamoto, Akihiko Kondo

  Improving the production of ethanol from xylose is an important goal in metabolic engineering of Saccharomyces cerevisiae. Furthermore, S. cerevisiae must produce ethanol in the presence of weak acids (formate and acetate) generated during pre-treatment of lignocellulosic biomass. In this study, weak acid-containing xylose fermentation was significantly improved using cells that were acclimated to the weak acids during pre-cultivation. Transcriptome analyses showed that levels of transcripts for transcriptional/translational machinery-related genes (RTC3 and ANB1) were enhanced by formate and acetate acclimation. Recombinant yeast strains overexpressing RTC3 and ANB1 demonstrated improved ethanol production from xylose in the presence of the weak acids, along with improved tolerance to the acids. Novel metabolic engineering strategy based on the combination of short-term acclimation and system-wide analysis was developed, which can develop stress-tolerant strains in a short period of time, although conventional evolutionary engineering approach has required long periods of time to isolate inhibitor-adapted strains.

  SPRINGER, 2016年01月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 100(2) (2), 1027 - 1038, 英語

  [査読有り]

  研究論文（学術雑誌）


• Converting oils high in phospholipids to biodiesel using immobilized Aspergillus oryzae whole-cell biocatalysts expressing Fusarium heterosporum lipase

  Jerome Amoah, Shih-Hsin Ho, Shinji Hama, Ayumi Yoshida, Akihito Nakanishi, Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  The presence of phospholipids in oil has been a major hurdle in the production of biodiesel using immobilized Aspergillus oryzae whole-cell biocatalysts. A density of phospholipids within the range of 10-30% could reduce both the rate of production and the final yield of biodiesel. Phospholipids in the oil leads to the formation of water-in-oil phospholipid-based reverse micelles. The water that activates the enzymatic process is observed to be trapped inside these reverse micelles. This has resulted in the inactivation of the reaction systems and has subsequently led to the deactivation of the immobilized lipase by the extended residence time of the added methanol. A reaction system involving gentle agitation and higher amount of water was found to reduce the reverse micelles formation. This simple technique improved the conversion efficiency by approximately 3-folds, producing a final biodiesel of more than 90%, using immobilized A. oryzae whole cells expressing Fusarium heterosporum lipase. This demonstrates that, the above technique could be successfully applied to the enzymatic biodiesel conversion of oils containing high amounts of phospholipids such as that from microalgae. (C) 2015 Elsevier B.V. All rights reserved.

  ELSEVIER SCIENCE BV, 2016年01月, BIOCHEMICAL ENGINEERING JOURNAL, 105, 10 - 15, 英語

  [査読有り]

  研究論文（学術雑誌）


• Rational design and evolutional fine tuning of Saccharomyces cerevisiae for biomass breakdown

  Tomohisa Hasunuma, Jun Ishii, Akihiko Kondo

  Conferring biomass hydrolysis activity on yeast through genetic engineering has paved the way for the development of groundbreaking processes for producing liquid fuels and commodity chemicals from lignocellulosic biomass. However, the overproduction and misfolding of heterologous and endogenous proteins can trigger cellular stress, increasing the metabolic burden and retarding growth. Improving the efficiency of lignocellulosic breakdown requires engineering of yeast secretory pathway based on system-wide metabolic analysis as well as DNA constructs for enhanced cellulase gene expression with advanced molecular biology tools. Also, yeast is subjected to severe stress due to toxic compounds generated during lignocellulose pretreatment in consolidated saccharification and fermentation processes. The prospect for development of robust yeast strains makes combining evolutionary and rational engineering strategies.

  ELSEVIER SCI LTD, 2015年12月, CURRENT OPINION IN CHEMICAL BIOLOGY, 29, 1 - 9, 英語

  [査読有り]

  研究論文（学術雑誌）


• Genetic engineering and metabolite profiling for overproduction of polyhydroxybutyrate in cyanobacteria

  Sayaka Hondo, Masatoshi Takahashi, Takashi Osanai, Mami Matsuda, Tomohisa Hasunuma, Akio Tazuke, Yoichi Nakahira, Shigeru Chohnan, Morifumi Hasegawa, Munehiko Asayama

  Genetic engineering and metabolite profiling for the overproduction of polyhydroxybutyrate (PHB), which is a carbon material in biodegradable plastics, were examined in the unicellular cyanobacterium Synechocystis sp. PCC 6803. Transconjugants harboring cyanobacterial expression vectors that carried the pha genes for PHB biosynthesis were constructed. The overproduction of PHB by the engineering cells was confirmed through microscopic observations using Nile red, transmission electron microscopy (TEM), or nuclear magnetic resonance (NMR). We successfully recovered PHB from transconjugants prepared from nitrogen-depleted medium without sugar supplementation in which PHB reached approximately 7% (w/w) of the dry cell weight, showing a value of 12-fold higher productivity in the transconjugant than that in the control strain. We also measured the intracellular levels of acetyl-CoA, acetoacetyl-CoA, and 3-hydroxybutyryl-CoA (3HB-CoA), which are intermediate products for PHB. The results obtained indicated that these products were absent or at markedly low levels when cells were subjected to the steady-state growth phase of cultivation under nitrogen depletion for the overproduction of bioplastics. Based on these results, efficient factors were discussed for the overproduction of PHB in recombinant cyanobacteria. (C) 2015, The Society for Biotechnology, Japan. All rights reserved.

  SOC BIOSCIENCE BIOENGINEERING JAPAN, 2015年11月, JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 120(5) (5), 510 - 517, 英語

  [査読有り]

  研究論文（学術雑誌）


• Expression of Cyanobacterial Acyl-ACP Reductase Elevates the Triacylglycerol Level in the Red Alga Cyanidioschyzon merolae

  Nobuko Sumiya, Yasuko Kawase, Jumpei Hayakawa, Mami Matsuda, Mami Nakamura, Atsuko Era, Kan Tanaka, Akihiko Kondo, Tomohisa Hasunuma, Sousuke Imamura, Shin-ya Miyagishima

  Nitrogen starvation is known to induce the accumulation of triacylglycerol (TAG) in many microalgae, and potential use of microalgae as a source of biofuel has been explored. However, nitrogen starvation also stops cellular growth. The expression of cyanobacterial acyl-acyl carrier protein (ACP) reductase in the unicellular red alga Cyanidioschyzon merolae chloroplasts resulted in an accumulation of TAG, which led to an increase in the number and size of lipid droplets while maintaining cellular growth. Transcriptome and metabolome analyses showed that the expression of acyl-ACP reductase altered the activities of several metabolic pathways. The activities of enzymes involved in fatty acid synthesis in chloroplasts, such as acetyl-CoA carboxylase and pyruvate dehydrogenase, were up-regulated, while pyruvate decarboxylation in mitochondria and the subsequent consumption of acetyl-CoA by the tricarboxylic acid (TCA) cycle were down-regulated. Aldehyde dehydrogenase, which oxidizes fatty aldehydes to fatty acids, was also up-regulated in the acyl-ACP reductase expresser. This activation was required for the lipid droplet accumulation and metabolic changes observed in the acyl-ACP reductase expresser. Nitrogen starvation also resulted in lipid droplet accumulation in C. merolae, while cell growth ceased as in the case of other algal species. The metabolic changes that occur upon the expression of acyl-ACP reductase are quite different from those caused by nitrogen starvation. Therefore, there should be a method for further increasing the storage lipid level while still maintaining cell growth that is different from the metabolic response to nitrogen starvation.

  OXFORD UNIV PRESS, 2015年10月, PLANT AND CELL PHYSIOLOGY, 56(10) (10), 1962 - 1980, 英語

  [査読有り]

  研究論文（学術雑誌）


• バイオリファイナリーの現状と展望

  蓮沼 誠久, 石井 純, 荻野 千秋, 近藤 昭彦

  2015年10月, 化学と生物, 53(10) (10), 689 - 695, 日本語

  研究論文（学術雑誌）


• 合成生物工学によるモノづくり微生物のデザインに向けて

  石井純, 荒木 通啓, 中津井 雅彦, 崎濱 由梨, 柘植 陽太, 蓮沼 誠久, 近藤 昭彦

  2015年09月, 生物工学会誌, 93(9) (9), 523 - 526, 日本語

  研究論文（学術雑誌）


• Combined cell-surface display- and secretion-based strategies for production of cellulosic ethanol with Saccharomyces cerevisiae

  LIU Z, INOKUMA Kentaro, HO SHIH-HSIN, den HAAN R, HASUNUMA Tomohisa, van ZYL WH, KONDO Akihiko

  2015年09月, Biotechnology for Biofuels, 8, 162, 英語

  [査読有り]

  研究論文（学術雑誌）


• Improving polyglucan production in cyanobacteria and microalgae via cultivation design and metabolic engineering

  Shimpei Aikawa, Shih-Hsin Ho, Akihito Nakanishi, Jo-Shu Chang, Tomohisa Hasunuma, Akihiko Kondo

  Photosynthetic microorganisms, such as cyanobacteria and microalgae, are currently being investigated as alternative biomass resources for bioethanol production, owing to their benefits, including high-photosynthetic activity and whole-year cultivation without utilization of arable land. Polyglucans comprise the major carbohydrate content of these organisms. Polyglucans can be utilized as a carbon source for microbial fermentation. Although polyglucan production has so far been promoted by nutrient limitation, it must be further enhanced to accommodate market demand. This review focuses on the recent progress in the production of -polyglucans such asglycogen and starch in cyanobacteria and green microalgae via cultivation design, including modifying the nutrient supply and replacing the growth medium. The control and manipulation of polyglucan metabolism necessitates the elucidation of the polyglucan production mechanism. We reviewed gene expression and metabolite accumulation profiles of cyanobacteria and green microalgae during nutrient limitation-stimulated -polyglucan accumulation. We also focus on the enhancement in cyanobacterial glycogen production via the genetic engineering of glycolysis, CO2 concentration mechanism, and photosynthetic light-harvesting protein based on the polyglucan accumulation mechanism. The combined strategies of cultivation design and genetic engineering should be considered for further enhancement of polyglucan productivity for bioethanol production.

  WILEY-V C H VERLAG GMBH, 2015年06月, BIOTECHNOLOGY JOURNAL, 10(6) (6), 886 - 898, 英語

  [査読有り]

  研究論文（学術雑誌）


• Precipitate obtained following membrane separation of hydrothermally pretreated rice straw liquid revealed by 2D NMR to have high lignin content

  Sasaki Kengo, Okamoto M, Shirai T, Tsuge Yota, Teramura Hiroshi, Sasaki Daisuke, Kawaguchi Hideo, Hasunuma Tomohisa, Ogino Chiaki, Matsuda F, Kikuchi J, Kondo Akihiko

  2015年06月, Biotechnology for Biofuels, 8, 88, 英語

  [査読有り]

  研究論文（学術雑誌）


• Mechanical milling and membrane separation for increased ethanol production during simultaneous saccharification and co-fermentation of rice straw by xylose-fermenting Saccharomyces cerevisiae

  Kengo Sasaki, Yota Tsuge, Daisuke Sasaki, Hiroshi Teramura, Kentaro Inokuma, Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  Mechanical milling and membrane separation were applied to simultaneous saccharification and co-fermentation from hydrothermally pretreated rice straw. Mechanical milling with minimized 4 cycles enabled 37.5 +/- 3.4 g L-1 and 45.3 +/- 4.4 g L-1 of ethanol production after 48 h by xylose-fermenting Saccharomyces cerevisiae from solid fractions (200 and 250 g L-1) of pretreated rice straw with 5 filter paper unit g-biomass(-1) cellulase (respectively, 77.3 +/- 7.1% and 74.7 +/- 7.3% of theoretical ethanol yield). Use of a membrane-based process including nanofiltration and ultrafiltration increased the sugar concentrations in the liquid fraction of pretreated rice straw and addition of this liquid fraction to 250 g L-1 solid fraction increased ethanol production to 52.0 +/- 0.4 g L-1 (73.8 +/- 0.6% of theoretical ethanol yield). Mechanical milling was effective in increasing enzymatic hydrolysis of the solid fraction and membrane separation steps increased the ethanol titer during co-fermentation, leading to a proposal for combining these processes for ethanol production from whole rice straw. (C) 2015 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2015年06月, BIORESOURCE TECHNOLOGY, 185, 263 - 268, 英語

  [査読有り]

  研究論文（学術雑誌）


• CBPによるバイオエタノール生産技術の開発

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  2015年05月, バイオインダストリー, 32(5) (5), 26 - 31, 日本語

  研究論文（学術雑誌）


• Phenyllactic acid production by simultaneous saccharification and fermentation of pretreated sorghum bagasse

  Hideo Kawaguchi, Hiroshi Teramura, Kouji Uematsu, Kiyotaka Y. Hara, Tomohisa Hasunuma, Ko Hirano, Takashi Sazuka, Hidemi Kitano, Yota Tsuge, Prihardi Kahar, Satoko Niimi-Nakamura, Ken-Ichi Oinuma, Naoki Takaya, Shigemitsu Kasuga, Chiaki Ogino, Akihiko Kondo

  Dilute acid-pretreated sorghum bagasse, which was predominantly composed of glucan (59%) and xylose (7.2%), was used as a lignocellulosic feedstock for D-phenyllactic acid (PhLA) production by a recombinant Escherichia coli strain expressing phenylpyruvate reductase from Wickerhamia fluorescens. During fermentation with enzymatic hydrolysate of sorghum bagasse as a carbon source, the PhLA yield was reduced by 35% compared to filter paper hydrolysate, and metabolomics analysis revealed that NAD(P)H regeneration and intracellular levels of erythrose-4-phosphate and phosphoenolpyruvate for PhLA biosynthesis markedly reduced. Compared to separate hydrolysis and fermentation (SHF) with sorghum bagasse hydrolysate, simultaneous saccharification and fermentation (SSF) of sorghum bagasse under glucose limitation conditions yielded 4.8-fold more PhLA with less accumulation of eluted components, including p-coumaric acid and aldehydes, which inhibited PhLA fermentation. These results suggest that gradual enzymatic hydrolysis during SSF enhances PhLA production under glucose limitation and reduces the accumulation of fermentation inhibitors, collectively leading to increased PhLA yield. (c) 2015 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2015年04月, BIORESOURCE TECHNOLOGY, 182, 169 - 178, 英語

  [査読有り]

  研究論文（学術雑誌）


• Evaluation of genes involved in oxidative phosphorylation in yeast by developing a simple and rapid method to measure mitochondrial ATP synthetic activity.

  YE Xiaoting, MORIKAWA Kana, HO SHIH-HSIN, ARAKI Michihiro, NISHIDA Keiji, Hasunuma Tomohisa, HARA Kiyotaka, KONDO Akihiko

  2015年04月, Microbial Cell Factories, 14, 56, 英語

  [査読有り]

  研究論文（学術雑誌）


• Complete genome sequence of Kluyveromyces marxianus NBRC1777, a nonconventional thermotolerant yeast

  Kentaro Inokuma, Jun Ishii, Kiyotaka Hara, Masao Mochizuki, Tomohisa Hasunuma, Akihiko Kondo

  2015年04月, Genome Announcements, 3(2) (2), e00389 - 15, 英語

  [査読有り]

  研究論文（学術雑誌）


• 代謝プロファイリングに基づく微生物育種技術の開発と応用

  蓮沼 誠久

  2015年03月, 生物工学会誌, 93(3) (3), 122 - 129, 日本語

  研究論文（学術雑誌）


• Recent advances in the metabolic engineering of Corynebacterium glutamicum for the production of lactate and succinate from renewable resources

  Yota Tsuge, Tomohisa Hasunuma, Akihiko Kondo

  Recent increasing attention to environmental issues and the shortage of oil resources have spurred political and industrial interest in the development of environmental friendly and cost-effective processes for the production of bio-based chemicals from renewable resources. Thus, microbial production of commercially important chemicals is viewed as a desirable way to replace current petrochemical production. Corynebacterium glutamicum, a Gram-positive soil bacterium, is one of the most important industrial microorganisms as a platform for the production of various amino acids. Recent research has explored the use of C. glutamicum as a potential cell factory for producing organic acids such as lactate and succinate, both of which are commercially important bulk chemicals. Here, we summarize current understanding in this field and recent metabolic engineering efforts to develop C. glutamicum strains that efficiently produce L- and D-lactate, and succinate from renewable resources.

  SPRINGER HEIDELBERG, 2015年03月, JOURNAL OF INDUSTRIAL MICROBIOLOGY & BIOTECHNOLOGY, 42(3) (3), 375 - 389, 英語

  [査読有り]

  研究論文（学術雑誌）


• Improved ethanol production from xylose in the presence of acetic acid by the overexpression of the HAA1 gene in Saccharomyces cerevisiae

  Yuri Sakihama, Tomohisa Hasunuma, Akihiko Kondo

  The hydrolysis of lignocellulosic biomass liberates sugars, primarily glucose and xylose, which are subsequently converted to ethanol by microbial fermentation. The rapid and efficient fermentation of xylose by recombinant Saccharomyces cerevisiae strains is limited by weak acids generated during biomass pretreatment processes. In particular, acetic acid negatively affects cell growth, xylose fermentation rate, and ethanol production. The ability of S. cerevisiae to efficiently utilize xylose in the presence of acetic acid is an essential requirement for the cost-effective production of ethanol from lignocellulosic hydrolysates. Here, an acetic acid-responsive transcriptional activator, HAA1, was overexpressed in a recombinant xylose-fermenting S. cerevisiae strain to yield BY4741X/HAA1. This strain exhibited improved cell growth and ethanol production from xylose under aerobic and oxygen limited conditions, respectively, in the presence of acetic acid. The HAA1p regulon enhanced transcript levels in BY4741X/HAA1. The disruption of PHO13, a p-nitrophenylphosphatase gene, in BY4741X/HAA1 led to further improvement in both yeast growth and the ability to ferment xylose, indicating that HAM overexpression and PHO13 deletion act by different mechanisms to enhance ethanol production. (C) 2014, The Society for Biotechnology, Japan. All rights reserved.

  SOC BIOSCIENCE BIOENGINEERING JAPAN, 2015年03月, JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 119(3) (3), 297 - 302, 英語

  [査読有り]

  研究論文（学術雑誌）


• Dynamic metabolic profiling of the marine microalga Chlamydomonas sp. JSC4 and enhancing its oil production by optimizing light intensity

  HO S.H, NAKANISHI A, YE X, CHANG J.S, CHEN C.Y, HASUNUMA Tomohisa, KONDO Akihiko

  2015年03月, Biotechnology for Biofuels, 8, 48, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Hyperphosphorylation of DegU cancels CcpA-dependent catabolite repression of rocG in Bacillus subtilis

  Kosei Tanaka, Kana Iwasaki, Takuya Morimoto, Takatsugu Matsuse, Tomohisa Hasunuma, Shinji Takenaka, Onuma Chumsakul, Shu Ishikawa, Naotake Ogasawara, Ken-ichi Yoshida

  2015年02月, BMC Microbiology, 15, 43, 英語

  [査読有り]

  研究論文（学術雑誌）


• Efficient co-displaying and artificial ratio control of α-amylase and glucoamylase on the yeast cell surface by using combinations of different anchoring domains

  Kentaro Inokuma, Takanobu Yoshida, Jun Ishii, Tomohisa Hasunuma, Akihiko Kondo

  Recombinant yeast strains that display heterologous amylolytic enzymes on their cell surface via the glycosylphosphatidylinositol (GPI)-anchoring system are considered as promising biocatalysts for direct ethanol production from starchy materials. For the effective hydrolysis of these materials, the ratio optimization of multienzyme activity displayed on the cell surface is important. In this study, we have presented a ratio control system of multienzymes displayed on the yeast cell surface by using different GPI-anchoring domains. The novel gene cassettes for the cell-surface display of Streptococcus bovis alpha-amylase and Rhizopus oryzae glucoamylase were constructed using the Saccharomyces cerevisiae SED1 promoter and two different GPI-anchoring regions derived from Saccharomyces cerevisiae SED1 or SAG1. These gene cassettes were integrated into the Saccharomyces cerevisiae genome in different combinations. Then, the cell-surface alpha-amylase and glucoamylase activities and ethanol productivity of these recombinant strains were evaluated. The combinations of the gene cassettes of these enzymes affected the ratio of cell-surface alpha-amylase and glucoamylase activities and ethanol productivity of the recombinant strains. The highest ethanol productivity from raw starch was achieved by the strain harboring one alpha-amylase gene cassette carrying the SED1-anchoring region and two glucoamylase gene cassettes carrying the SED1-anchoring region (BY-AASS/GASS/GASS). This strain yielded 22.5 +/- 0.6 g/L of ethanol from 100 g/L of raw starch in 120 h of fermentation.

  SPRINGER, 2015年02月, Applied Microbiology and Biotechnology, 99(4) (4), 1655 - 1663, 英語

  [査読有り]

  研究論文（学術雑誌）


• The impact of zinc sulfate addition on the dynamic metabolic profiling of Saccharomyces cerevisiae subjected to long term acetic acid stress treatment and identification of key metabolites involved in the antioxidant effect of zinc

  Chun Wan, Mingming Zhang, Qing Fang, Liang Xiong, Xinqing Zhao, Tomohisa Hasunuma, Fengwu Bai, Akihiko Kondo

  The mechanisms of how zinc protects the cells against acetic acid toxicity and acts as an antioxidant are still not clear. Here we present results of the metabolic profiling of the eukaryotic model yeast species Saccharomyces cerevisiae subjected to long term high concentration acetic acid stress treatment in the presence and absence of zinc supplementation. Zinc addition decreased the release of reactive oxygen species (ROS) in the presence of chronic acetic acid stress. The dynamic changes in the accumulation of intermediates in central carbon metabolism were observed, and higher contents of intracellular alanine, valine and serine were observed by zinc supplementation. The most significant change was observed in alanine content, which is 3.51-fold of that of the control culture in cells in the stationary phase. Subsequently, it was found that 0.5 g L-1 alanine addition resulted in faster glucose consumption in the presence of 5 g L-1 acetic acid, and apparently decreased ROS accumulation in zinc-supplemented cells. This indicates that alanine exerted its antioxidant effect at least partially through the detoxification of acetic acid. In addition, intracellular glutathione (GSH) accumulation was enhanced by zinc addition, which is related to the protection of yeast cells from the oxidative injury caused by acetic acid. Our studies revealed for the first time that zinc modulates cellular amino acid metabolism and redox balance, especially biosynthesis of alanine and glutathione to exert its antioxidant effect.

  ROYAL SOC CHEMISTRY, 2015年, METALLOMICS, 7(2) (2), 322 - 332, 英語

  [査読有り]

  研究論文（学術雑誌）


• Zinc, magnesium, and calcium ion supplementation confers tolerance to acetic acid stress in industrial Saccharomyces cerevisiae utilizing xylose

  Ku Syahidah Ku Ismail, Takatoshi Sakamoto, Tomohisa Hasunuma, Xin-Qing Zhao, Akihiko Kondo

  Lignocellulosic biomass is a potential substrate for ethanol production. However, pretreatment of lignocellulosic materials produces inhibitory compounds such as acetic acid, which negatively affect ethanol production by Saccharomyces cerevisiae. Supplementation of the medium with three metal ions (Zn2+, Mg2+, and Ca2+) increased the tolerance of S. cerevisiae toward acetic acid compared to the absence of the ions. Ethanol production from xylose was most improved (by 34%) when the medium was supplemented with 2 mM Ca2+, followed by supplementation with 3.5 mM Mg2+ (29% improvement), and 180 mu M Zn2+ (26% improvement). Higher ethanol production was linked to high cell viability in the presence of metal ions. Comparative transcriptomics between the supplemented cultures and the control suggested that improved cell viability resulted from the induction of genes controlling the cell wall and membrane. Only one gene, FIT2, was found to be up-regulated in common between the three metal ions. Also up-regulation of HXT1 and TKL1 might enhance xylose consumption in the presence of acetic acid. Thus, the addition of ionic nutrients is a simple and cost-effective method to improve the acetic acid tolerance of S. cerevisiae.

  WILEY-V C H VERLAG GMBH, 2014年12月, BIOTECHNOLOGY JOURNAL, 9(12) (12), 1519 - 1525, 英語

  [査読有り]

  研究論文（学術雑誌）


• Perspectives on engineering strategies for improving biofuel production from microalgae - A critical review

  Shih-Hsin Ho, Xiaoting Ye, Tomohisa Hasunuma, Jo-Shu Chang, Akihiko Kondo

  Although the potential for biofuel production from microalgae via photosynthesis has been intensively investigated, information on the selection of a suitable operation strategy for microalgae-based biofuel production is lacking. Many published reports describe competitive strains and optimal culture conditions for use in biofuel production; however, the major impediment to further improvements is the absence of effective engineering strategies for microalgae cultivation and biofuel production. This comprehensive review discusses recent advances in understanding the effects of major environmental stresses and the characteristics of various engineering operation strategies on the production of biofuels (mainly biodiesel and bioethanol) using microalgae. The performances of microalgae-based biofuel-producing systems under various environmental stresses (i.e., irradiance, temperature, pH, nitrogen depletion, and salinity) and cultivation strategies (i.e., fed-batch, semi-continuous, continuous, two-stage, and salinity-gradient) are compared. The reasons for variations in performance and the underlying theories of the various production strategies are also critically discussed. The aim of this review is to provide useful information to facilitate development of innovative and feasible operation technologies for effectively increasing the commercial viability of microalgae-based biofuel production. (c) 2014 Elsevier Inc. All rights reserved.

  PERGAMON-ELSEVIER SCIENCE LTD, 2014年12月, BIOTECHNOLOGY ADVANCES, 32(8) (8), 1448 - 1459, 英語

  [査読有り]

  研究論文（学術雑誌）


• Overexpression of flv3 improves photosynthesis in the cyanobacterium Synechocystis sp. PCC6803 by enhancement of alternative electron flow

  HASUNUMA Tomohisa, MATSUDA M, SENGA Y, AIKAWA S, TOYOSHIMA M, SHIMAKAWA G, MIYAKE C, KONDO Akihiko

  2014年12月, Biotechnology for Biofuels, 7, 493, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Development of bio-based fine chemical production through synthetic bioengineering

  HARA Kiyotaka, ARAKI Michihiro, OKAI Naoko, WAKAI Satoshi, HASUNUMA Tomohisa, KONDO Akihiko

  2014年12月, Microbial Cell Factories, 13(1) (1), 173, 英語

  [査読有り]

  研究論文（学術雑誌）


• Optimized membrane process to increase hemicellulosic ethanol production from pretreated rice straw by recombinant xylose-fermenting Saccharomyces cerevisiae

  Kengo Sasaki, Yota Tsuge, Daisuke Sasaki, Tomohisa Hasunuma, Takatoshi Sakamoto, Yuri Sakihama, Chiaki Ogino, Akihiko Kondo

  Oligomeric sugars in the liquid fraction of hot water-pretreated rice straw are more amenable to membrane process than monomeric sugars, as lower pressure is required. Following membrane process was employed: nanofiltration (NF) concentration -> (dilution -> NF concentration) x 2 times -> enzymatic hydrolysis (EH) -> ultrafiltration (UF) permeation [Implication: NF for recovery of oligomeric sugars, dilution and NF for removal of low molecular weight fermentation inhibitors, UF for removal of high molecular weight fermentation inhibitors and recovery of monomeric sugars after EH]. This process provided the liquid fraction containing 111.4 g L-1 of sugars, corresponding to 681.0 mM as monomeric sugars, from the original liquid fraction (181.1 mM monomeric sugars). Concentrations of low molecular weight fermentation inhibitors, acetic and formic acids, were decreased to 24% and 48%, respectively. Xylose-fermenting recombinant Saccharomyces cerevisiae produced 34.5 +/- 2.2 g L-1 ethanol from the 0.8 times liquid fraction (76% of theoretical yield). (C) 2014 Published by Elsevier Ltd.

  ELSEVIER SCI LTD, 2014年10月, BIORESOURCE TECHNOLOGY, 169, 380 - 386, 英語

  [査読有り]

  研究論文（学術雑誌）


• Development of a GIN11/FRT-based multiple-gene integration technique affording inhibitor-tolerant, hemicellulolytic, xylose-utilizing abilities to industrial Saccharomyces cerevisiae strains for ethanol production from undetoxified lignocellulosic hemicel

  HASUNUMA Tomohisa, HORI Y, SAKAMOTO Takatoshi, OCHIAI M, HATANAKA H, KONDO Akihiko

  2014年10月, Microbial Cell Factories, 13(1) (1), 145, 英語

  [査読有り]

  研究論文（学術雑誌）


• Detoxification of furfural in Corynebacterium glutamicum under aerobic and anaerobic conditions

  Yota Tsuge, Yoshimi Hori, Motonori Kudou, Jun Ishii, Tomohisa Hasunuma, Akihiko Kondo

  The toxic fermentation inhibitors in lignocellulosic hydrolysates raise serious problems for the microbial production of fuels and chemicals. Furfural is considered to be one of the most toxic compounds among these inhibitors. Here, we describe the detoxification of furfural in Corynebacterium glutamicum ATCC13032 under both aerobic and anaerobic conditions. Under aerobic culture conditions, furfuryl alcohol and 2-furoic acid were produced as detoxification products of furfural. The ratio of the products varied depending on the initial furfural concentration. Neither furfuryl alcohol nor 2-furoic acid showed any toxic effect on cell growth, and both compounds were determined to be the end products of furfural degradation. Interestingly, unlike under aerobic conditions, most of the furfural was converted to furfuryl alcohol under anaerobic conditions, without affecting the glucose consumption rate. Both the NADH/NAD(+) and NADPH/NADP(+) ratio decreased in the accordance with furfural concentration under both aerobic and anaerobic conditions. These results indicate the presence of a single or multiple endogenous enzymes with broad and high affinity for furfural and co-factors in C. glutamicum ATCC13032.

  SPRINGER, 2014年10月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 98(20) (20), 8675 - 8683, 英語

  [査読有り]

  研究論文（学術雑誌）


• A new screening method for recombinant Saccharomyces cerevisiae strains based on their xylose fermentation ability measured by near infrared spectroscopy

  Hiroyuki Morita, Tomohisa Hasunuma, Maria Vassileva, Akihiko Kondo, Roumiana Tsenkova

  Fuel ethanol produced from lignocettulose by the yeast Saccharomyces cerevisiae becomes an increasingly important alternative to fossil fuels. Selection of S. cerevisiae strains, which can effectively produce ethanol from xylose is crucial to improve the fuel yield from lignocellulose. In the present study, a universal calibration system was developed by the combination of time series, fermentation near infrared (NIR) spectral data analysis and reference high-performance analysis of a single yeast strain which enabled the evaluation of the ethanol production ability of a wide variety of xylose-fermenting yeast strains. Subtraction of xylose and ethanol concentrations at 0 h for each clone, as well as the respective spectra, reduced subtle errors of the fermentation components naturally occurring in multiple experiments to clearly visualize the difference of fermentation ability between strains. Also, NI R spectra showed specific peaks in difference spectra calculated from the subtraction treatment. A robust univariate linear regression model led to high prediction accuracy of xylose consumption (R-2 > 0.99) and ethanol production (R-2 > 0.98) for a wide variety of yeast strains when using only the distinct spectral pattern of a single-strain. Here, a novel method for screening of high-performing yeast strains has been developed requiring only a simple single-strain calibration model. The advantages of NIR spectroscopy such as rapid and convenient experimental preparation using electromagnetic waves in the region, which provide deep penetration into an aqueous sample, are successfully exploited in the proposed screening method.

  ROYAL SOC CHEMISTRY, 2014年09月, ANALYTICAL METHODS, 6(17) (17), 6628 - 6634, 英語

  [査読有り]

  研究論文（学術雑誌）


• アーミング酵母による統合型バイオプロセスの開発

  蓮沼 誠久, 近藤 昭彦

  2014年07月, 日本エネルギー学会誌, 93(7) (7), 580 - 585, 日本語

  研究論文（学術雑誌）


• Simultaneous saccharification and fermentation of kraft pulp by recombinant Escherichia coli for phenyllactic acid production

  Hideo Kawaguchi, Kouji Uematsu, Chiaki Ogino, Hiroshi Teramura, Satoko Niimi-Nakamura, Yota Tsuge, Tomohisa Hasunuma, Ken-Ichi Oinuma, Naoki Takaya, Akihiko Kondo

  Simultaneous saccharification and fermentation (SSF) of renewable cellulose for the production of 3-phenyllactic acid (PhLA) by recombinant Escherichia coli was investigated. Kraft pulp recovered from biomass fractionation processes was used as a model cellulosic feedstock and was hydrolyzed using 10-50 filter paper unit (FPU) g(-1) kraft pulp of a commercial cellulase mixture, which increased the glucose yield from 21% to 72% in an enzyme dose-dependent manner. PhLA fermentation of the hydrolyzed kraft pulp by a recombinant E. coli strain expressing phenylpyruvate reductase from Wickerhamia fluorescens TK1 produced 1.9 mM PhLA. The PhLA yield obtained using separate hydrolysis and fermentation was enhanced from 5.8% to 42% by process integration into SSF of kraft pulp (20 g L-1) in a complex medium (pH 7.0) at 37 degrees C The PhLA yield was negatively correlated with the initial glucose concentration, with a five-fold higher PhLA yield observed in culture medium containing log L-1 glucose compared to 100 g L-1. Taken together, these results suggest that the PhLA yield from cellulose in kraft pulp can be improved by SSF under glucose-limited conditions. (C) 2014 Elsevier B.V. All rights reserved.

  ELSEVIER SCIENCE BV, 2014年07月, BIOCHEMICAL ENGINEERING JOURNAL, 88, 188 - 194, 英語

  [査読有り]

  研究論文（学術雑誌）


• Optimizing biodiesel production in marine Chlamydomonas sp.JSC4 through metabolic profiling and an innovative salinity-gradient strategy

  HO S.H, NAKANISHI A, YE X, CHANG J.S, HARA Kiyotaka, HASUNUMA Tomohisa, KONDO Akihiko

  2014年06月, Biotechnology for Biofuels, 7, 97, 英語

  [査読有り]

  研究論文（学術雑誌）

  神戸大学リポジトリ（Kernel）へのリンク


• Glycogen production for biofuels by the euryhaline cyanobacteria Synechococcus sp. strain PCC 7002 from an oceanic environment.

  AIKAWA S, NISHIDA A, HO S.H, CHANG J.S, HASUNUMA Tomohisa, KONDO Akihiko

  2014年06月, Biotechnology for Biofuels, 7, 88, 英語

  [査読有り]

  研究論文（学術雑誌）


• Ethanol Production from Yeasts

  Tomohisa Hasunuma, Ryosuke Yamada, Akihiko Kondo

  Numerous environmental and social benefits could result from the replacement of petroleum-based transport fuels with bioethanol converted from renewable biomass. One of the key elements for the development of environmentally benign ethanol production is the construction of biomass-hydrolyzing yeast strains. The commonly used yeast Saccharomyces cerevisiae is a superior ethanol producer with demonstrated fast sugar consumption, high ethanol yield from glucose, and high resistance to ethanol. Hence, many researchers have targeted the heterologous expression of biomass-degrading enzymes in yeast to utilize glucose released from biomass for the production of ethanol by itself. In particular, cell-surface engineering is a powerful tool for yeast engineering. The display of amylolytic and cellulolytic enzymes on the yeast cell surface has accomplished direct ethanol production from starchy and cellulosic biomass. Moreover, reutilization of the cell surface-engineered yeast has the advantage of reducing enzyme cost, enabling reuse of enzymes on the cell surface by collecting the cells. For the efficient production of ethanol from biomass, improved assimilation of a wide variety of substrates could be achieved by overexpressing or deleting genes encoding traits responsible for yeast fermentability. Establishing economically feasible fermentation processes requires a marked increase in ethanol product titers due to the high energy demands of product recovery steps, as well as the high capital and production costs associated with bioethanol production equipment. A combination of biomass-degrading enzyme capacity and metabolic engineering in yeast strains could be an effective approach to developing cells with novel fermentation ability for industrial applications, and development of functional consolidated bioprocessing.

  Wiley Blackwell, 2014年04月, Bioprocessing of Renewable Resources to Commodity Bioproducts, 201 - 226, 英語

  [査読有り]

  論文集(書籍)内論文


• リグノセルロースからの高効率エタノール生産に向けた新規代謝改変酵母の創製

  蓮沼 誠久, 近藤 昭彦

  2014年03月, オレオサイエンス, 14(3) (3), 95 - 101, 日本語

  研究論文（学術雑誌）


• Increased biomass production and glycogen accumulation in apcE gene deleted Synechocystis sp. PCC 6803

  JOSEPH A, AIKAWA S, SASAKI Kengo, MATSUDA F, HASUNUMA Tomohisa, KONDO Akihiko

  2014年03月, AMB Express, 4, 17, 英語

  [査読有り]

  研究論文（学術雑誌）


• Co-expression of TAL1 and ADH1 in recombinant xylose-fermenting Saccharomyces cerevisiae improves ethanol production from lignocellulosic hydrolysates in the presence of furfural

  Tomohisa Hasunuma, Ku Syahidah Ku Ismail, Yumiko Nambu, Akihiko Kondo

  Lignocellulosic biomass dedicated to bioethanol production usually contains pentoses and inhibitory compounds such as furfural that are not well tolerated by Saccharomyces cerevisiae. Thus, S. cerevisiae strains with the capability of utilizing both glucose and xylose in the presence of inhibitors such as furfural are very important in industrial ethanol production. Under the synergistic conditions of transaldolase (TAL) and alcohol dehydrogenase (ADH) overexpression, S. cerevisiae MT8-1X/TAL ADH was able to produce 1.3-fold and 2.3-fold more ethanol in the presence of 70 mM furfural than a TAL-expressing strain and a control strain, respectively. We also tested the strains' ability by mimicking industrial ethanol production from hemicellulosic hydrolysate containing fermentation inhibitors, and ethanol production was further improved by 16% when using MT8-1X/TAL-ADH compared to the control strain. Transcript analysis further revealed that besides the pentose phosphate pathway genes TKL1 and TAL1, ADH7 was also upregulated in response to furfural stress, which resulted in higher ethanol production compared to the TAL-expressing strain. The improved capability of our modified strain was based on its capacity to more quickly reduce furfural in situ resulting in higher ethanol production. The co-expression of TAL/ADH genes is one crucial strategy to fully utilize undetoxified lignocellulosic hydrolysate, leading to cost-competitive ethanol production. (C) 2013, The Society for Biotechnology, Japan. All rights reserved.

  SOC BIOSCIENCE BIOENGINEERING JAPAN, 2014年02月, JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 117(2) (2), 165 - 169, 英語

  [査読有り]

  研究論文（学術雑誌）


• Rre37 stimulates accumulation of 2-oxoglutarate and glycogen under nitrogen starvation in Synechocystis sp PCC 6803

  Joseph Ancy, Aikawa Shimpei, Sasaki Kengo, Teramura Hiroshi, Hasunuma Tomohisa, Matsuda Fumio, Osanai Takashi, Hirai Masami Yokota, Kondo Akihiko

  2014年01月, FEBS LETTERS, 588(3) (3), 466 - 471

  [査読有り]


• Rre37 stimulates accumulation of 2-oxoglutarate and glycogen under nitrogen starvation in Synechocystis sp PCC 6803

  Ancy Joseph, Shimpei Aikawa, Kengo Sasaki, Hiroshi Teramura, Tomohisa Hasunuma, Fumio Matsuda, Takashi Osanai, Masami Yokota Hirai, Akihiko Kondo

  Rre37 (sll1330) in a cyanobacterium Synechocystis sp. PCC 6803 acts as a regulatory protein for sugar catabolic genes during nitrogen starvation. Low glycogen accumulation in Delta rre37 was due to low expression of glycogen anabolic genes. In addition to low 2-oxoglutarate accumulation, normal upregulated expression of genes encoding glutamate synthases (gltD and gltB) as well as accumulation of metabolites in glycolysis (fructose-6-phosphate, fructose-1,6-bisphosphate, and glyceraldehyde-3-phosphate) and tricarboxylic acid (TCA) cycle (oxaloacetate, fumarate, succinate, and aconitate) were abolished by rre37 knockout. Rre37 regulates 2-oxoglutarate accumulation, glycogen accumulation through expression of glycogen anabolic genes, and TCA cycle metabolites accumulation. (C) 2013 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.

  ELSEVIER SCIENCE BV, 2014年01月, FEBS LETTERS, 588(3) (3), 466 - 471, 英語

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  研究論文（学術雑誌）


• Efficient yeast cell surface display of exo-and endo-cellulase using the SED1 anchoring region and its original promoter

  INOKUMA K, HASUNUMA Tomohisa, KONDO Akihiko

  2014年01月, Biotechnology for Biofuels, 7(1) (1), 8, 英語

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  研究論文（学術雑誌）


• Development of lipid productivities under different CO2 conditions of marine microalgae Chlamydomonas sp JSC4

  Akihito Nakanishi, Shimpei Aikawa, Shih-Hsin Ho, Chun-Yen Chen, Jo-Shu Chang, Tomohisa Hasunuma, Akihiko Kondo

  Biodiesel production from microalgae has become a popular research topic. In this study, Chlamydomonas sp. JSC4 isolated from the southern coast of Taiwan was selected for a detailed study on cell growth and lipid accumulation under marine salinity (3.5% sea salt). Proper CO2 was supplied as the improvement of lipid productivity. Under the optimal condition, the highest lipid productivity was 169.1 mg/L/d, which was significantly higher than those reported in current studies for marine green algae. To date, only very few studies have reported a marine algae strain with both high cell growth and lipid productivity. This study demonstrated that a newly isolated marine green alga Chlamydomonas sp. JSC4 would be a feasible oil producer due to its high biomass production and lipid productivity under marine salinity. (C) 2013 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2014年01月, BIORESOURCE TECHNOLOGY, 152, 247 - 252, 英語

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  研究論文（学術雑誌）


• Respiration accumulates Calvin cycle intermediates for the rapid start of photosynthesis in Synechocystis sp. PCC 6803

  Ginga Shimakawa, Tomohisa Hasunuma, Akihiko Kondo, Mami Matsuda, Amane Makino, Chikahiro Miyake

  We tested the hypothesis that inducing photosynthesis in cyanobacteria requires respiration. A mutant deficient in glycogen phosphorylase (ΔGlgP) was prepared in Synechocystis sp. PCC 6803 to suppress respiration. The accumulated glycogen in ΔGlgP was 250-450% of that accumulated in wild type (WT). The rate of dark respiration in ΔGlgP was 25% of that inWT. In the dark, P700+ reduction was suppressed in ΔGlgP, and the rate corresponded to that in (2,5-dibromo-3-methyl-6-isopropyl- p -benzoquinone)-treated WT, supporting a lower respiration rate in ΔGlgP. Photosynthetic O2-evolution rate reached a steady-state value much slower in ΔGlgP than in WT. This retardation was solved by addition of D-glucose. Furthermore, we found that the contents of Calvin cycle intermediates in ΔGlgP were lower than those in WT under dark conditions. These observations indicated that respiration provided the carbon source for regeneration of ribulose 1,5-bisphosphate in order to drive the rapid start of photosynthesis.

  Japan Society for Bioscience Biotechnology and Agrochemistry, 2014年, Bioscience, Biotechnology and Biochemistry, 78(12) (12), 1997 - 2007, 英語

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  研究論文（学術雑誌）


• Direct production of organic acids from starch by cell surface-engineered Corynebacterium glutamicum in anaerobic conditions.

  Yota Tsuge, Toshihiro Tateno, Kengo Sasaki, Tomohisa Hasunuma, Tsutomu Tanaka, Akihiko Kondo

  We produced organic acids, including lactate and succinate, directly from soluble starch under anaerobic conditions using high cell-density cultures of Corynebacterium glutamicum displaying α-amylase (AmyA) from Streptococcus bovis 148 on the cell surface. Notably, reactions performed under anaerobic conditions at 35 and 40°C, which are higher than the optimal growth temperature of 30°C, showed 32% and 19%, respectively, higher productivity of the organic acids lactate, succinate, and acetate compared to that at 30°C. However, α-amylase was not stably anchored and released into the medium from the cell surface during reactions at these higher temperatures, as demonstrated by the 61% and 85% decreases in activity, respectively, from baseline, compared to the only 8% decrease at 30°C. The AmyA-displaying C. glutamicum cells retained their starch-degrading capacity during five 10 h reaction cycles at 30°C, producing 107.8 g/l of total organic acids, including 88.9 g/l lactate and 14.0 g/l succinate. The applicability of cell surface-engineering technology for the production of organic acids from biomass by high cell-density cultures of C. glutamicum under anaerobic conditions was demonstrated.

  2013年12月, AMB Express, 3(1) (1), 72 - 72, 英語, 国際誌

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  研究論文（学術雑誌）


• Ethanol fermentation by xylose-assimilating Saccharomyces cerevisiae using sugars in a rice straw liquid hydrolysate concentrated by nanofiltration

  Kengo Sasaki, Daisuke Sasaki, Yuri Sakihama, Hiroshi Teramura, Ryosuke Yamada, Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  Concentrating sugars using membrane separation, followed by ethanol fermentation by recombinant xylose-assimilating Saccharomyces cerevisiae, is an attractive technology. Three nanofiltration membranes (NTR-729HF, NTR-7250, and ESNA3) were effective in concentrating glucose, fructose, and sucrose from dilute molasses solution and no permeation of sucrose. The separation factors of acetate, formate, furfural, and 5-hydroxymethyl furfural, which were produced by dilute acid pretreatment of rice straw, over glucose after passage through these three membranes were 3.37-11.22, 4.71-20.27, 4.32-16.45, and 4.05-16.84, respectively, at pH 5.0, an applied pressure of 1.5 or 2.0 MPa, and 25 degrees C. The separation factors of these fermentation inhibitors over xylose were infinite, as there was no permeation of xylose. Ethanol production from approximately two-times concentrated liquid hydrolysate using recombinant S. cerevisiae was double (5.34-6.44 g L-1) that compared with fermentation of liquid hydrolysate before membrane separation (2.75 g L-1). (C) 2013 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2013年11月, BIORESOURCE TECHNOLOGY, 147, 84 - 88, 英語

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  研究論文（学術雑誌）


• Endowing non-cellulolytic microorganisms with cellulolytic activity aiming for consolidated bioprocessing

  Ryosuke Yamada, Tomohisa Hasunuma, Akihiko Kondo

  With the exhaustion of fossil fuels and with the environmental issues they pose, utilization of abundant lignocellulosic biomass as a feedstock for biofuels and bio-based chemicals has recently become an attractive option. Lignocellulosic biomass is primarily composed of cellulose, hemicellulose, and lignin and has a very rigid and complex structure. It is accordingly much more expensive to process than starchy grains because of the need for extensive pretreatment and relatively large amounts of cellulases for efficient hydrolysis. Efficient and cost-effective methods for the production of biofuels and chemicals from lignocellulose are required. A consolidated bioprocess (CBP), which integrates all biological steps consisting of enzyme production, saccharification, and fermentation, is considered a promising strategy for reducing production costs. Establishing an efficient CBP using lignocellulosic biomass requires both lignocellulose degradation into glucose and efficient production of biofuels or chemicals from glucose. With this aim, many researchers are attempting to endow selected microorganisms with lignocellulose-assimilating ability. In this review, we focus on studies aimed at conferring lignocellulose-assimilating ability not only to yeast strains but also to bacterial strains by recombinant technology. Recent developments in improvement of enzyme productivity by microorganisms and in improvement of the specific activity of cellulase are emphasized. (C) 2013 Elsevier Inc. All rights reserved.

  PERGAMON-ELSEVIER SCIENCE LTD, 2013年11月, BIOTECHNOLOGY ADVANCES, 31(6) (6), 754 - 763, 英語

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  研究論文（学術雑誌）


• Time-based comparative transcriptomics in engineered xylose-utilizing Saccharomyces cerevisiae identifies temperature-responsive genes during ethanol production

  Ku Syahidah Ku Ismail, Takatoshi Sakamoto, Tomohisa Hasunuma, Akihiko Kondo

  Agricultural residues comprising lignocellulosic materials are excellent sources of pentose sugar, which can be converted to ethanol as fuel. Ethanol production via consolidated bioprocessing requires a suitable microorganism to withstand the harsh fermentation environment of high temperature, high ethanol concentration, and exposure to inhibitors. We genetically enhanced an industrial Saccharomyces cerevisiae strain, sun049, enabling it to uptake xylose as the sole carbon source at high fermentation temperature. This strain was able to produce 13.9 g/l ethanol from 50 g/l xylose at 38 A degrees C. To better understand the xylose consumption ability during long-term, high-temperature conditions, we compared by transcriptomics two fermentation conditions: high temperature (38 A degrees C) and control temperature (30 A degrees C) during the first 12 h of fermentation. This is the first long-term, time-based transcriptomics approach, and it allowed us to discover the role of heat-responsive genes when xylose is the sole carbon source. The results suggest that genes related to amino acid, cell wall, and ribosomal protein synthesis are down-regulated under heat stress. To allow cell stability and continuous xylose uptake in order to produce ethanol, hexose transporter HXT5, heat shock proteins, ubiquitin proteins, and proteolysis were all induced at high temperature. We also speculate that the strong relationship between high temperature and increased xylitol accumulation represents the cell's mechanism to protect itself from heat degradation.

  SPRINGER HEIDELBERG, 2013年09月, JOURNAL OF INDUSTRIAL MICROBIOLOGY & BIOTECHNOLOGY, 40(9) (9), 1039 - 1050, 英語

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  研究論文（学術雑誌）


• Engineering strategies for improving the CO2 fixation and carbohydrate productivity of Scenedesmus obliquus CNW-N used for bioethanol fermentation

  Shih-Hsin Ho, Akihiko Kondo, Tomohisa Hasunuma, Jo-Shu Chang

  Engineering strategies were applied to improve the cell growth, CO2 fixation ability, and carbohydrate productivity of a Scenedesmus obliquus CNW-N isolate. The resulting carbohydrate-rich microalgal biomass was subsequently utilized as feedstock for ethanol fermentation. The microalga was cultivated with 2.5% CO2 in a photobioreactor on different operation modes. Semi-batch operations with 50% replacement of culture medium resulted in the highest CO2 fixation rate (1546.7 mg L-1 d(-1)), carbohydrate productivity (467.6 mg L-1 d(-1)), and bioethanol yield (0.202 g/g biomass). This performance is better than most reported values in the literature. The microalgal biomass can accumulate nearly 50% carbohydrates, as glucose accounted for nearly 80% of the total carbohydrate content. This glucose-predominant carbohydrate composition of the microalga is well suited for fermentative bioethanol production. Therefore, using the proposed carbohydrate-rich microalgal biomass both as the carbon sink and as the feedstock provides a feasible alternative to current carbon-reduction and bioethanol-production strategies. (C) 2013 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2013年09月, BIORESOURCE TECHNOLOGY, 143, 163 - 171, 英語

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• Cocktail δ-integration of xylose assimilation genes for effecient xylose fermentation in Saccharomyces cerevisiae

  KATO H, MATSUDA F, YAMADA R, NAGATA K, SHIRAI T, HASUNUMA Tomohisa, KONDO Akihiko

  Cocktail delta-integration was applied to improve ethanol production from xylose in Saccharomyces cerevisiae. Two hundred of recombinant S. cerevisiae strains possessing various copies of XYL1, XYL2, and XKS1 genes were constructed by cocktail delta-integration. Efficient strains with efficient ethanol production from xylose were successfully obtained by the fermentation test. (C) 2013, The Society for Biotechnology, Japan. All rights reserved.

  SOC BIOSCIENCE BIOENGINEERING JAPAN, 2013年09月, Journal of Bioscience and Bioengineering, 116(3) (3), 333 - 336, 英語

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  研究論文（学術雑誌）


• Aqueous size-exclusion chromatographic method for the quantification of cyanobacterial native glycogen

  Yoshihiro Izumi, Shimpei Aikawa, Fumio Matsuda, Tomohisa Hasunuma, Akihiko Kondo

  Cyanobacterial glycogen has gained interest as a valuable biomass feedstock for biofuel production. However, an ideal method for native glycogen quantification has not been developed. Here, we have proposed a simple methodology that enables the quantitative determination of cyanobacterial glycogen concentration with high repeatability using aqueous size-exclusion chromatography with a differential refractive index detector (SEC/RID). Our SEC/RID system also allows size distributions for native glycogen based on hydrodynamic volumes (Vh), which is proportional to the product of the molecular mass (M) and intrinsic viscosity [η], obtained by universal calibration using linear homopolymers of known M with Mark-Houwink-Sakurada parameters. The universal calibration curve achieved a broad linear range (Vh parameter [η]M=2×102-8×108mLg-1) with a high correlation coefficient (R2=0.9942), because the developed system is equipped with an OHpak SB-806M HQ aqueous column containing four types of polyhydroxy methacrylate-based particles with different particle and pore sizes. Based on the SEC/RID system, response of molecular size distribution of glycogen in microalgae to the cultivation condition was first observed. Our established SEC/RID method has several advantages over conventional techniques, including the simultaneous quantitative and size distribution analyses of glycogen, and represents a potentially useful tool to elucidate the relationship between structural properties and the roles of glycogen in metabolism. © 2013 Elsevier B.V.

  2013年07月, Journal of Chromatography B: Analytical Technologies in the Biomedical and Life Sciences, 930, 90 - 97, 英語

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  研究論文（学術雑誌）


• Dynamic metabolic profiling of cyanobacterial glycogen biosynthesis under conditions of nitrate depletion

  HASUNUMA Tomohisa, KIKUYAMA F, MATSUDA M, AIKAWA S, IZUMI Y, KONDO Akihiko

  2013年06月, Journal of Experimental Botany, 64(10) (10), 2943 - 2954, 英語

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  研究論文（学術雑誌）


• Detection of orally administered inositol stereoisomers in mouse blood plasma and their effects on translocation of glucose transporter 4 in skeletal muscle cells

  Yoko Yamashita, Masaru Yamaoka, Tomohisa Hasunuma, Hitoshi Ashida, Ken-Ichi Yoshida

  Simple pharmacological studies on inositol stereoisomers are presented in this study. Male ICR mice were orally administered 1 g/kg BW of three inositol stereoisomers, myo-inositol (MI), d-chiro-inositol (DCI), and scyllo-inositol (SI), and blood plasma samples and skeletal muscle fractions were prepared after an hour. The plasma samples were subjected to gas chromatography-coupled time-of-flight mass spectrometry (GC-TOF-MS) analysis. None of the three stereoisomers was seen in untreated samples, but substantial amounts ranging from 2.5 to 6.5 mM were detected only after administration, indicating that orally administered inositol stereoisomers were readily absorbed and their levels elevated in the bloodstream. In addition, plasma of SI-administered animals contained substantial MI, suggesting a possible metabolic conversion of SI to MI. In the skeletal muscle fractions, glucose transporter type 4 (GLUT4) content in the plasma membrane increased, indicating that inositol stereoisomers stimulated GLUT4 translocation. © 2013 American Chemical Society.

  2013年05月, Journal of Agricultural and Food Chemistry, 61(20) (20), 4850 - 4854, 英語

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• Direct conversion of Spirulina to ethanol without pretreatment or enzymatic hydrolysis processes

  AIKAWA S, JOSEPH A, YAMADA R, IZUMI Y, YAMAGISHI T, MATSUDA F, KAWAI H, CHANG JS, HASUNUMA Tomohisa, KONDO Akihiko

  2013年05月, Energy & Environmental Science, 6(6) (6), 1844 - 1849, 英語

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  研究論文（学術雑誌）


• Cell recycle batch fermentation of high-solid lignocellulose using a recombinant cellulase-displaying yeast strain for high yield ethanol production in consolidated bioprocessing

  Yuki Matano, Tomohisa Hasunuma, Akihiko Kondo

  The aim of this study is to develop a scheme of cell recycle batch fermentation (CRBF) of high-solid lignocellulosic materials. Two-phase separation consisting of rough removal of lignocellulosic residues by low-speed centrifugation and solid-liquid separation enabled effective collection of Saccharomyces cerevisiae cells with decreased lignin and ash. Five consecutive batch fermentation of 200 g/L rice straw hydrothermally pretreated led to an average ethanol titer of 34.5 g/L. Moreover, the display of cellulases on the recombinant yeast cell surface increased ethanol titer to 42.2 g/L. After, five-cycle fermentation, only 3.3 g/L sugar was retained in the fermentation medium, because cellulase displayed on the cell surface hydrolyzed cellulose that was not hydrolyzed by commercial cellulases or free secreted cellulases. Fermentation ability of the recombinant strain was successfully kept during a five-cycle repeated batch fermentation with 86.3% of theoretical yield based on starting biomass. (C) 2012 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2013年05月, BIORESOURCE TECHNOLOGY, 135, 403 - 409, 英語

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  研究論文（学術雑誌）


• Bioethanol production, using carbohydrate-rich microalgae biomass as feedstock

  Shih-Hsin Ho, Shu-Wen Huang, Chun-Yen Chen, Tomohisa Hasunuma, Akihiko Kondo, Jo-Shu Chang

  This study aimed to evaluate the potential of using a carbohydrate-rich microalga Chlorella vulgaris FSP-E as feedstock for bioethanol production via various hydrolysis strategies and fermentation processes. Enzymatic hydrolysis of C. vulgaris FSP-E biomass (containing 51% carbohydrate per dry weight) gave a glucose yield of 90.4% (or 0.461 g (g biomass)(-1)). The SHF and SSF processes converted the enzymatic microalgae hydrolysate into ethanol with a 79.9% and 92.3% theoretical yield, respectively. Dilute acidic hydrolysis with 1% sulfuric acid was also very effective in saccharifying C vulgaris FSP-E biomass, achieving a glucose yield of nearly 93.6% from the microalgal carbohydrates at a starting biomass concentration of 50 g L-1. Using the acidic hydrolysate of C vulgaris FSP-E biomass as feedstock, the SHF process produced ethanol at a concentration of 11.7 g L-1 and an 87.6% theoretical yield. These findings indicate the feasibility of using carbohydrate-producing microalgae as feedstock for fermentative bioethanol production. (C) 2012 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2013年05月, BIORESOURCE TECHNOLOGY, 135, 191 - 198, 英語

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  研究論文（学術雑誌）


• A review of enzymes and microbes for lignocellulosic biorefinery and the possibility of their application to consolidated bioprocessing technology

  Tomohisa Hasunuma, Fumiyoshi Okazaki, Naoko Okai, Kiyotaka Y. Hara, Jun Ishii, Akihiko Kondo

  The biorefinery manufacturing process for producing chemicals and liquid fuels from biomass is a promising approach for securing energy and resources. To establish cost-effective fermentation of lignocellulosic biomass, the consolidation of sacccharification and fermentation processes is a desirable strategy, but requires the development of microorganisms capable of cellulose/hemicellulose hydrolysis and target chemical production. Such an endeavor requires a large number of prerequisites to be realized, including engineering microbial strains with high cellulolytic activity, high product yield, productivities, and titers, ability to use many carbon sources, and resistance to toxic compounds released during the pretreatment of lignocellulosic biomass. Researchers have focused on either engineering naturally cellulolytic microorganisms to improve product-related properties or modifying non-cellulolytic organisms with high product yields to become cellulolytic. This article reviews recent advances in the development of microorganisms for the production of renewable chemicals and advanced biofuels, as well as ethanol, from lignocellulosic materials through consolidated bioprocessing. (C) 2012 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2013年05月, BIORESOURCE TECHNOLOGY, 135, 513 - 522, 英語

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  研究論文（学術雑誌）


• Simultaneous improvement of saccharification and ethanol production from crystalline cellulose by alleviation of irreversible adsorption of cellulase with a cell surface-engineered yeast strain

  Yuki Matano, Tomohisa Hasunuma, Akihiko Kondo

  Enzymatic hydrolysis of cellulosic material is an essential step in the bioethanol production process. However, complete cellulose hydrolysis by cellulase is difficult due to the irreversible adsorption of cellulase onto cellulose. Thus, part of the cellulose remains in crystalline form after hydrolysis. In this study, after 96-h hydrolysis of Avicel crystalline cellulose, 47.1 % of the cellulase was adsorbed on the cellulose surface with 10.8 % crystalline cellulose remaining. In simultaneous saccharification and fermentation of 100 g/L Avicel with 1.0 filter paper unit/mL cellulase, a wild-type yeast strain produced 44.7 g/L ethanol after 96 h. The yield of ethanol was 79.7 % of the theoretical yield. On the other hand, a recombinant yeast strain displaying various cellulases, such as β-glucosidase, cellobiohydrolase, and endoglucanase, produced 48.9 g/L ethanol, which corresponds to 87.3 % of the theoretical yield. Higher ethanol production appears to be attributable to higher efficiency of cellulase displayed on the cell surface. These results suggest that cellulases displayed on the yeast cell surface improve hydrolysis of Avicel crystalline cellulose. Indeed, after the 96-h simultaneous saccharification and fermentation using the cellulase-displaying yeast, the amount of residual cellulose was 1.5 g/L, one quarter of the cellulose remaining using the wild-type strain, a result of the alleviation of irreversible adsorption of cellulases on the crystalline cellulose. © 2012 Springer-Verlag Berlin Heidelberg.

  2013年03月, Applied Microbiology and Biotechnology, 97(5) (5), 2231 - 2237, 英語

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  研究論文（学術雑誌）


• Reduction of furan derivatives by overexpressing NADH-dependent Adh1 improves ethanol fermentation using xylose as sole carbon source with Saccharomyces cerevisiae harboring XR-XDH pathway

  Jun Ishii, Kazuya Yoshimura, Tomohisa Hasunuma, Akihiko Kondo

  Several alcohol dehydrogenase (ADH)-related genes have been identified as enzymes for reducing levels of toxic compounds, such as, furfural and/or 5-hydroxymethylfurfural (5-HMF), in hydrolysates of pretreated lignocelluloses. To date, overexpression of these ADH genes in yeast cells have aided ethanol production from glucose or glucose/xylose mixture in the presence of furfural or 5-HMF. However, the effects of these ADH isozymes on ethanol production from xylose as a sole carbon source remain uncertain. We showed that overexpression of mutant NADH-dependent ADH1 derived from TMB3000 strain in the recombinant Saccharomyces cerevisiae, into which xylose reductase (XR) and xylitol dehydrogenase (XDH) pathway of Pichia stipitis has been introduced, improved ethanol production from xylose as a sole carbon source in the presence of 5-HMF. Enhanced furan-reducing activity is able to regenerate NAD+ to relieve redox imbalance, resulting in increased ethanol yield arising from decreased xylitol accumulation. In addition, we found that overexpression of wild-type ADH1 prevented the more severe inhibitory effects of furfural in xylose fermentation as well as overexpression of TMB3000-derived mutant. After 120 h of fermentation, the recombinant strains overexpressing wild-type and mutant ADH1 completely consumed 50 g/L xylose in the presence of 40 mM furfural and most efficiently produced ethanol (15.70 g/L and 15.24 g/L) when compared with any other test conditions. This is the first report describing the improvement of ethanol production from xylose as the sole carbon source in the presence of furan derivatives with xylose-utilizing recombinant yeast strains via the overexpression of ADH-related genes. © 2012 Springer-Verlag.

  2013年03月, Applied Microbiology and Biotechnology, 97(6) (6), 2597 - 2607, 英語

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  研究論文（学術雑誌）


• Implementation of a transhydrogenase-like shunt to counter redox imbalance during xylose fermentation in Saccharomyces cerevisiae

  Hiroyuki Suga, Fumio Matsuda, Tomohisa Hasunuma, Jun Ishii, Akihiko Kondo

  Three enzymes responsible for the transhydrogenase-like shunt, including malic enzyme (encoded by MAE1), malate dehydrogenase (MDH2), and pyruvate carboxylase (PYC2), were overexpressed to regulate the redox state in xylose-fermenting recombinant Saccharomyces cerevisiae. The YPH499XU/MAE1 strain was constructed by overexpressing native Mae1p in the YPH499XU strain expressing xylose reductase and xylitol dehydrogenase from Scheffersomyces stipitis, and native xylulokinase. Analysis of the xylose fermentation profile under semi-anaerobic conditions revealed that the ethanol yield in the YPH499XU/MAE1 strain (0.38 +/- 0.01 g g(-1) xylose consumed) was improved from that of the control strain (0.31 +/- 0.01 g g(-1) xylose consumed). Reduced xylitol production was also observed in YPH499XU/MAE1, suggesting that the redox balance was altered by Mae1p overexpression. Analysis of intracellular metabolites showed that the redox imbalance during xylose fermentation was partly relieved in the transformant. The specific ethanol production rate in the YPH499XU/MAE1-MDH2 strain was 1.25-fold higher than that of YPH499XU/MAE1 due to the additional overexpression of Mdh2p, whereas the ethanol yield was identical to that of YPH499XU/MAE1. The specific xylose consumption rate was drastically increased in the YPH499XU/MAE1-MDH2-PYC2 strain. However, poor ethanol yield as well as increased production of xylitol was observed. These results demonstrate that the transhydrogenase function implemented in S. cerevisiae can regulate the redox state of yeast cells.

  SPRINGER, 2013年02月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 97(4) (4), 1669 - 1678, 英語

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  研究論文（学術雑誌）


• Ability of a perfluoropolymer membrane to tolerate by-products of ethanol fermentation broth from dilute acid-pretreated rice straw

  Kengo Sasaki, Fumio Matsuda, Tomohisa Hasunuma, Chiaki Ogino, Masakatsu Urairi, Kazuhito Yoshida, Akihiko Kondo

  A perfluoropolymer (PFP) membrane has been prepared for use in vapor permeation to separate aqueous ethanol mixtures produced from rice straw with xylose-assimilating recombinant Saccharomyces cerevisiae. PFP membranes commonly have been used for dehydration process and possess good selectivity and high permeances. The effects of by-products during dilute acid pretreatment, addition of yeast extract, and ethanol fermentation on PFP membrane performance were investigated. While feeding mixtures of ethanol (90wt%) in water, to which individual by-products (0.1-2g/L) were added, the PFP membrane demonstrated no clear change in permeation rate (439-507gm-2h-1) or separation factor (14.9-23.5) from 2 to 4h of the process. The PFP membrane also showed no clear change in permeation rate (751-859gm-2h-1) or separation factor (12.5-13.8) while feeding the mixture (final ethanol conc.: 61wt%) of ethanol and distillation of the fermentation broth using a suspended fraction of dilute acid-pretreated rice straw for 20h. These results suggest that the PFP membrane can tolerate actual distillation liquids from ethanol fermentation broth obtained from lignocellulosic biomass pretreated with dilute acid. © 2012.

  2013年01月, Biochemical Engineering Journal, 70, 135 - 139, 英語

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• Gene expression cross-profiling in genetically modified industrial Saccharomyces cerevisiae strains during high-temperature ethanol production from xylose

  Ku Syahidah Ku Ismail, Takatoshi Sakamoto, Haruyo Hatanaka, Tomohisa Hasunuma, Akihiko Kondo

  Production of ethanol from xylose at high temperature would be an economical approach since it reduces risk of contamination and allows both the saccharification and fermentation steps in SSF to be running at elevated temperature. Eight recombinant xylose-utilizing Saccharomyces cerevisiae strains developed from industrial strains were constructed and subjected to high-temperature fermentation at 38 °C. The best performing strain was sun049T, which produced up to 15.2. g/L ethanol (63% of the theoretical production), followed by sun048T and sun588T, both with 14.1. g/L ethanol produced. Via transcriptomic analysis, expression profiling of the top three best ethanol producing strains compared to a negative control strain, sun473T, led to the discovery of genes in common that were regulated in the same direction. Identification of the 20 most highly up-regulated and the 20 most highly down-regulated genes indicated that the cells regulate their central metabolism and maintain the integrity of the cell walls in response to high temperature. We also speculate that cross-protection in the cells occurs, allowing them to maintain ethanol production at higher concentration under heat stress than the negative controls. This report provides further transcriptomics information in the interest of producing a robust microorganism for high-temperature ethanol production utilizing xylose. © 2012 Elsevier B.V.

  2013年01月, Journal of Biotechnology, 163(1) (1), 50 - 60, 英語

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• Development of microbial cell factories for bio-refinery through synthetic bioengineering

  Akihiko Kondo, Jun Ishii, Kiyotaka Y. Hara, Tomohisa Hasunuma, Fumio Matsuda

  Synthetic bioengineering is a strategy for developing useful microbial strains with innovative biological functions. Novel functions are designed and synthesized in host microbes with the aid of advanced technologies for computer simulations of cellular processes and the system-wide manipulation of host genomes. Here, we review the current status and future prospects of synthetic bioengineering in the yeast Saccharomyces cerevisiae for bio-refinery processes to produce various commodity chemicals from lignocellulosic biomass. Previous studies to improve assimilation of xylose and production of glutathione and butanol suggest a fixed pattern of problems that need to be solved, and as a crucial step, we now need to identify promising targets for further engineering of yeast metabolism. Metabolic simulation, transcriptomics, and metabolomics are useful emerging technologies for achieving this goal, making it possible to optimize metabolic pathways. Furthermore, novel genes responsible for target production can be found by analyzing large-scale data. Fine-tuning of enzyme activities is essential in the latter stage of strain development, but it requires detailed modeling of yeast metabolic functions. Recombinant technologies and genetic engineering are crucial for implementing metabolic designs into microbes. In addition to conventional gene manipulation techniques, advanced methods, such as multicistronic expression systems, marker-recycle gene deletion, protein engineering, cell surface display, genome editing, and synthesis of very long DNA fragments, will facilitate advances in synthetic bioengineering. (C) 2012 Elsevier B.V. All rights reserved.

  ELSEVIER SCIENCE BV, 2013年01月, JOURNAL OF BIOTECHNOLOGY, 163(2) (2), 204 - 216, 英語

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  研究論文（学術雑誌）


• Characterization and optimization of carbohydrate production from an indigenous microalga Chlorella vulgaris FSP-E

  Shih-Hsin Ho, Shu-Wen Huang, Chun-Yen Chen, Tomohisa Hasunuma, Akihiko Kondo, Jo-Shu Chang

  In this study, three indigenous microalgae isolates were examined for their ability to produce carbohydrates. Among them, Chlorella vulgaris FSP-E displayed relatively high cell growth rate and carbohydrate content. The carbohydrate productivity of C. vulgaris FSP-E was further improved by using engineering strategies. The results show that using an appropriate light intensity and inoculum size could effectively promote cell growth and carbohydrate productivity. Nitrogen starvation triggered the accumulation of carbohydrates in the microalga, achieving a carbohydrate content of 51.3% after 4-day starvation. Under the optimal conditions, the highest biomass and carbohydrate productivity were 1.437 and 0.631gL-1d-1, respectively. This performance is better than that reported in most related studies. Since glucose accounted for nearly 93% of the carbohydrates accumulated in C. vulgaris FSP-E, the microalga is an excellent feedstock for bioethanol fermentation. © 2012 Elsevier Ltd.

  Elsevier Ltd, 2013年, Bioresource Technology, 135, 157 - 165, 英語

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  研究論文（学術雑誌）


• Development of yeast cell factories for consolidated bioprocessing of lignocellulose to bioethanol through cell surface engineering

  Tomohisa Hasunuma, Akihiko Kondo

  To build an energy and material secure future, a next generation of renewable fuels produced from lignocellulosic biomass is required. Although lignocellulosic biomass, which represents an abundant, inexpensive and renewable source for bioethanol production, is of great interest as a feedstock, the complicated ethanol production processes involved make the cost of producing bioethanol from it higher compared to corn starch and cane juice. Therefore, consolidated bioprocessing (CBP), which combines enzyme production, saccharification and fermentation in a single step, has gained increased recognition as a potential bioethanol production system. CBP requires a highly engineered microorganism developed for several different process-specific characteristics. The dominant strategy for engineering a CBP biocatalyst is to express multiple components of a cellulolytic system from either fungi or bacteria in the yeast Saccharomyces cerevisiae. The development of recombinant yeast strains displaying cellulases and hemicellulases on the cell surface represents significant progress toward realization of CBP. Regardless of the process used for biomass hydrolysis. CBP-enabling microorganisms encounter a variety of toxic compounds produced during biomass pretreatment that inhibit microbial growth and ethanol yield. Systems biology approaches including disruptome screening, transcriptomics, and metabolomics have been recently exploited to gain insight into the molecular and genetic traits involved in tolerance and adaptation to the fermentation inhibitors. In this review, we locus on recent advances in development of yeast strains with both the ability to directly convert lignocellulosic material to ethanol and tolerance in the harsh environments containing toxic compounds in the presence of ethanol. (c) 2011 Elsevier Inc. All rights reserved.

  PERGAMON-ELSEVIER SCIENCE LTD, 2012年11月, BIOTECHNOLOGY ADVANCES, 30(6) (6), 1207 - 1218, 英語

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  研究論文（学術雑誌）


• バイオリファイナリーとバイオプラスチック

  岡井 直子, 蓮沼 誠久, 近藤 昭彦

  2012年10月, ペトロテック, 35(10) (10), 700 - 706, 日本語

  研究論文（学術雑誌）


• Consolidated bioprocessing and simultaneous saccharification and fermentation of lignocellulose to ethanol with thermotolerant yeast strains

  Tomohisa Hasunuma, Akihiko Kondo

  Consolidated bioprocessing (CBP), which integrates enzyme production, saccharification and fermentation into a single process, is a promising strategy for effective ethanol production from lignocellulosic materials because of the resulting reduction in utilities, the substrate and other raw materials and simplification of operation. CBP requires a highly engineered microbial strain capable of hydrolyzing biomass with enzymes produced on its own and producing high-titer ethanol. Recently, heterologous production of cellulolytic enzymes has been pursued with yeast hosts, which has realized direct conversion of cellulose to ethanol. Specifically, the development of cell surface engineering, which provides a display of cellulolytic enzymes on the yeast cell surface, facilitates effective biomass hydrolysis concomitantly with ethanol production. On the other hand, the difference in optimum temperature between saccharification and fermentation is a drawback of efficient ethanol production in the simultaneous saccharification and fermentation (SSF). The application of thermotolerant yeast strains engineered to the SSF process would overcome the drawback by performing hydrolysis and fermentation at elevated temperature. In this review, we focus on the recent advances in the application of thermotolerant yeast to CBP and SSF of lignocellulosic material to ethanol. The development of thermotolerant and ethanologenic yeast strains with the ability to hydrolyze lignocellulosic materials is emphasized for high-temperature CBP. (C) 2012 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2012年09月, PROCESS BIOCHEMISTRY, 47(9) (9), 1287 - 1294, 英語

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  研究論文（学術雑誌）


• Design of superior cell factories for a sustainable biorefinery by synthetic bioengineering

  Tomohisa Hasunuma, Fumio Matsuda, Akihiko Kondo

  To build an energy and material secure future, we must pioneer the next generation of renewable fuels and chemicals using environmentally benign production processes. Since biomass represents an abundant carbon-neutral renewable resource for the production of biofuels, numerous environmental and social benefits could result from the replacement of petroleum-based transport fuels with bioethanol converted from biomass. One of the key technologies for the development of biorefineries is cell surface engineering, which is a powerful tool for engineering and functionalizing many organisms. Using the technology, various kinds of functional proteins, such as enzymes, can be expressed on the cell surface without loss of cell activity. The display of amylolytic and cellulolytic enzymes on the surface of Saccharomyces cerevisiae has accomplished direct ethanol production from starchy and cellulosic biomass. Moreover, the display of hemicellulase on the surface of S. cerevisiae that has a xylose-assimilating metabolic pathway has enabled production of ethanol from hemicellulosic materials. Furthermore, reutilization of the cell-surface engineered yeast has an advantage in the reduction of enzyme cost, which enables reuse of enzymes on the cell surface by collecting the cells. Thus, cell surface engineering is a promising technology for the development of a consolidated bioprocess by integrating enzyme production, saccharification and fermentation. Regardless of the biomass hydrolysis, metabolic engineering of microorganisms is emphasized for the efficient production of ethanol from biomass. Specifically, lignocellulosic hydrolysates contain high concentrations of inhibitors that negatively affect metabolism and ethanol yields. To circumvent these difficulties, robust S. cerevisiae strains that efficiently ferment mixtures of hexose and pentose sugars in the presence of various chemical contexts for industrial ethanol production should be constructed through metabolic engineering approaches. A combination of a cell-surface displayed enzyme system and an intracellular metabolic engineering system is a very effective approach for developing cells with improved fermentation ability for industrial applications. The technology (synthetic bioengineering) will open up new applications of cell factories to industrially important processes.

  Springer Netherlands, 2012年08月, Systems Metabolic Engineering, 9789400745346, 329 - 348, 英語

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  論文集(書籍)内論文


• 合成生物工学によるバイオ燃料生産のための微生物細胞工場の創製

  蓮沼 誠久, 近藤 昭彦

  2012年07月, 生物工学会誌, 90(7) (7), 386 - 391, 日本語

  研究論文（学術雑誌）


• Improvements in ethanol production from xylose by mating recombinant xylose-fermenting Saccharomyces cerevisiae strains

  Hiroko Kato, Hiroaki Suyama, Ryosuke Yamada, Tomohisa Hasunuma, Akihiko Kondo

  To improve the ability of recombinant Saccharomyces cerevisiae strains to utilize the hemicellulose components of lignocellulosic feedstocks, the efficiency of xylose conversion to ethanol needs to be increased. In the present study, xylose-fermenting, haploid, yeast cells of the opposite mating type were hybridized to produce a diploid strain harboring two sets of xylose-assimilating genes encoding xylose reductase, xylitol dehydrogenase, and xylulokinase. The hybrid strain MN8140XX showed a 1.3- and 1.9-fold improvement in ethanol production compared to its parent strains MT8-1X405 and NBRC1440X, respectively. The rate of xylose consumption and ethanol production was also improved by the hybridization. This study revealed that the resulting improvements in fermentation ability arose due to chromosome doubling as well as the increase in the copy number of xylose assimilation genes. Moreover, compared to the parent strain, the MN8140XX strain exhibited higher ethanol production under elevated temperatures (38 A degrees C) and acidic conditions (pH 3.8). Thus, the simple hybridization technique facilitated an increase in the xylose fermentation activity.

  SPRINGER, 2012年06月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 94(6) (6), 1585 - 1592, 英語

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  研究論文（学術雑誌）


• Widely targeted metabolic profiling analysis of yeast central metabolites

  Hiroko Kato, Yoshihiro Izumi, Tomohisa Hasunuma, Fumio Matsuda, Akihiko Kondo

  A method for a widely targeted analysis was developed for the metabolic profiling of yeast central metabolism. The widely targeted method consists of 2 analyses, namely, gas chromatography-quadrupole-mass spectrometry (GC-Q-MS) operated in selected ion monitoring mode with 25 m/z channels, and liquid chromatography triple-stage quadrupole (LC-QqQ)-MS operated in multiple reaction monitoring mode. This platform was set up to identify and quantify preselected 99 compounds, including sugars, sugar phosphates, organic adds, amino acids, and cofactors. The method showed good sensitivity and a wide dynamic range. For example, limits of detection for lactate and L-phenylalanine were 1.4 fmol and 2.0 fmol, respectively. The dynamic ranges for GC-Q-MS analysis and LC-QqQ-MS analysis were approximately 10(2)-10(5) and 10(3)-10(4), respectively. The metabolite profiles of 2 yeast strains, YPH499 and BY4741, under glucose-fermenting conditions were compared using the developed method. Although YPH499 and BY4741 were derived from an identical experimental strain, the profiling analysis successfully revealed a variation in metabolic phenotypes among experimental yeast strains demonstrating that the widely targeted method could be a robust and useful method for the investigation of metabolic phenotypes of Saccharomyces cerevisiae. (C) 2012, The Society for Biotechnology, Japan. All rights reserved.

  SOC BIOSCIENCE BIOENGINEERING JAPAN, 2012年05月, JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 113(5) (5), 665 - 673, 英語

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  研究論文（学術雑誌）


• Deletion of the PHO13 gene in Saccharomyces cerevisiae improves ethanol production from lignocellulosic hydrolysate in the presence of acetic and formic acids, and furfural

  Keisuke Fujitomi, Tomoya Sanda, Tomohisa Hasunuma, Akihiko Kondo

  For efficient bioethanol production from lignocellulosic biomass by Saccharomyces cerevisiae, it is necessary to improve cellular tolerance to toxic compounds released during the pretreatment of biomass. The gene encoding p-nitrophenylphosphatase, PHO13, was disrupted in a recombinant xylose-fermenting S. cerevisiae strain, which improved ethanol production from xylose in the presence of three major inhibitors, acetic and formic acids, and furfural. In medium supplemented with 30 mM acetic acid, the ethanol yield obtained by the Delta PHO13 mutant was 0.45 g-ethanol/g-xylose. Notably, the specific ethanol productivity of the mutant in the presence of 90 mM furfural was fourfold higher than that of the control strain. The PHO13-disrupted strain produced ethanol from rice straw hydrolysate obtained by liquid hot-water pretreatment with a greater than fourfold higher xylose consumption rate than the control. Together, our findings demonstrate that PHO13 deletion is a simple, but effective, approach for improving cellulosic bioethanol production by S. cerevisiae. (C) 2012 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2012年05月, BIORESOURCE TECHNOLOGY, 111, 161 - 166, 英語

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  研究論文（学術雑誌）


• Direct ethanol production from hemicellulosic materials of rice straw by use of an engineered yeast strain codisplaying three types of hemicellulolytic enzymes on the surface of xylose-utilizing Saccharomyces cerevisiae cells

  Takatoshi Sakamoto, Tomohisa Hasunuma, Yoshimi Hori, Ryosuke Yamada, Akihiko Kondo

  The cost of the lignocellulose-hydrolyzing enzymes used in the saccharification process of ethanol production from biomass accounts for a relatively high proportion of total processing costs. Cell surface engineering technology has facilitated a reduction in these costs by integrating saccharification and fermentation processes into a recombinant microbe strain expressing heterologous enzymes on the cell surface. We constructed a recombinant Saccharomyces cerevisiae that not only hydrolyzed hemicelluloses by codisplaying endoxylanase from Trichoderma reesei, beta-xylosidase from Aspergillus oryzae, and beta-glucosidase from Aspergillus aculeatus but that also assimilated xylose through the expression of xylose reductase and xylitol dehydrogenase from Pichia stipitis and xylulokinase from S. cerevisiae. The recombinant strain successfully produced ethanol from rice straw hydrolysate consisting of hemicellulosic material containing xylan, xylooligosaccharides, and cellooligosaccharides without requiring the addition of sugar-hydrolyzing enzymes or detoxication. The ethanol titer of the strain was 8.2 g/l after 72 h fermentation, which was approximately 2.5-fold higher than that of the control strain. The yield (grams of ethanol per gram of total sugars in rice straw hydrolysate consumed) was 0.41 g/g, which corresponded to 82% of the theoretical yield. The cell surface-engineered strain was thus highly effective for consolidating the process of ethanol production from hemicellulosic materials. (C) 2011 Elsevier B.V. All rights reserved.

  ELSEVIER SCIENCE BV, 2012年04月, JOURNAL OF BIOTECHNOLOGY, 158(4) (4), 203 - 210, 英語

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  研究論文（学術雑誌）


• Synergistic enhancement of glycogen production in Arthrospira platensis by optimization of light intensity and nitrate supply

  AIKAWA Shimpei, IZUMI Yoshihiro, MATSUDA Fumio, HASUNUMA Tomohisa, CHANG J. S, KONDO Akihiko

  2012年03月, Bioresource Technology, 108, 211-215, 英語

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  研究論文（学術雑誌）


• Display of cellulases on the cell surface of Saccharomyces cerevisiae affords high yield ethanol production from high-solid lignocellulosic biomass

  MATANO Yuki, HASUNUMA Tomohisa, KONDO Akihiko

  2012年03月, Bioresource Technology, 108, 128-133, 英語

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  研究論文（学術雑誌）


• Repeated-batch fermentation of lignocellulosic hydrolysate to ethanol using a hybrid Saccharomyces cerevisiae strain metabolically engineered for tolerance to acetic and formic acids

  Tomoya Sanda, Tomohisa Hasunuma, Fumio Matsuda, Akihiko Kondo

  A major challenge associated with the fermentation of lignocellulose-derived hydrolysates is improved ethanol production in the presence of fermentation inhibitors, such as acetic and formic acids. Enhancement of transaldolase (TAL) and formate dehydrogenase (FDH) activities through metabolic engineering successfully conferred resistance to weak acids in a recombinant xylose-fermenting Saccharomyces cerevisiae strain. Moreover, hybridization of the metabolically engineered yeast strain improved ethanol production from xylose in the presence of both 30 mM acetate and 20 mM formate. Batch fermentation of lignocellulosic hydrolysate containing a mixture of glucose, fructose and xylose as carbon sources, as well as the fermentation inhibitors, acetate and formate, was performed for five cycles without any loss of fermentation capacity. Long-term stability of ethanol production in the fermentation phase was not only attributed to the coexpression of TAL and FDH genes, but also the hybridization of haploid strains. (C) 2011 Elsevier Ltd. All rights reserved.

  ELSEVIER SCI LTD, 2011年09月, BIORESOURCE TECHNOLOGY, 102(17) (17), 7917 - 7924, 英語

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  研究論文（学術雑誌）


• Variation in biomass property among rice diverse cultivars.

  MATSUDA Fumio, YAMASAKI Masanori, HASUNUMA Tomohisa, OGINO Chiaki, KONDO Akihiko

  2011年08月, Bioscience, Biotechnology, and Biochemistry, 75(8) (8), 1603 - 1605, 英語

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  研究論文（学術雑誌）


• Near Infrared Spectroscopy As High-Throughput Technology for Screening of Xylose-Fermenting Recombinant Saccharomyces cerevisiae Strains

  Hiroyuki Morita, Tomohisa Hasunuma, Maria Vassileva, Roumiana Tsenkova, Akihiko Kondo

  Recently, genetic engineering efforts have been made to develop recombinant Saccharomyces cerevisiae strains able to utilize xylose, an inexpensive and abundant carbon source. However, their construction and selection processes are limited by the speed and expenses of the existing testing methods, thus a rapid and equally precise method will significantly increase the number of tested strains. Here, near infrared (NIR) spectroscopy is proposed as a successful alternative method for screening recombinant xylose-fermenting S. cerevisiae. Supernatant samples of fermentation solutions from one diploid and three haploid recombinant strains were collected along the fermentation process. NIR spectra of the diluted supernatant provided effective differentiation of strains consistent with their phenotypic and genotypic features. This result could be used as a feedback for multicomponent analysis, in order to develop regression model for quantification of consumed glucose and xylose, produced ethanol, glycerol, and xylitol. Robust partial least-squares regression models with high prediction accuracy that are effective with any strain were achieved for all components when the modeling was performed with combined data of all strains, achieving 0.21-1.49 g/L of standard error of prediction with calibration, prediction, limit of detection and limit of quantification in the range of 1.0-4.5 and 3.0-13.4 g/L, respectively.

  AMER CHEMICAL SOC, 2011年06月, ANALYTICAL CHEMISTRY, 83(11) (11), 4023 - 4029, 英語

  [査読有り]

  研究論文（学術雑誌）


• Efficient fermentation of xylose to ethanol at high formic acid concentrations by metabolically engineered Saccharomyces cerevisiae

  Tomohisa Hasunuma, Kyung-mo Sung, Tomoya Sanda, Kazuya Yoshimura, Fumio Matsuda, Akihiko Kondo

  Recombinant yeast strains highly tolerant to formic acid during xylose fermentation were constructed. Microarray analysis of xylose-fermenting Saccharomyces cerevisiae strain overexpressing endogenous xylulokinase in addition to xylose reductase and xylitol dehydrogenase from Pichia stipitis revealed that upregulation of formate dehydrogenase genes (FDH1 and FDH2) was one of the most prominent transcriptional events against excess formic acid. The quantification of formic acid in medium indicated that the innate activity of FDH was too weak to detoxify formic acid. To reinforce the capability for formic acid breakdown, the FDH1 gene was additionally overexpressed in the xylose-metabolizing recombinant yeast. This modification allowed the yeast to rapidly decompose excess formic acid. The yield and final ethanol concentration in the presence of 20 mM formic acid is as essentially same as that of control. The fermentation profile also indicated that the production of xylitol and glycerol, major by-products in xylose fermentation, was not affected by the upregulation of FDH activity.

  SPRINGER, 2011年05月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 90(3) (3), 997 - 1004, 英語

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  研究論文（学術雑誌）


• Metabolic pathway engineering based on metabolomics confers acetic and formic acid tolerance to a recombinant xyloseo-fermenting strain ofSaccharomyces cerevisiae

  Tomohisa Hasunuma, Tomoya Sanda, Ryosuke Yamada, Kazuya Yoshimura, Jun Ishii, Akihiko Kondo

  2011年01月, Microbial Cell Factories, 10(1), 2, 英語

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  研究論文（学術雑誌）


• Construction of a xylose-metabolizing yeast by genome integration of xylose isomerase gene and investigation of the effect of xylitol on fermentation

  Takanori Tanino, Atsushi Hotta, Tomonori Ito, Jun Ishii, Ryosuke Yamada, Tomohisa Hasunuma, Chiaki Ogino, Naoto Ohmura, Takayuki Ohshima, Akihiko Kondo

  A yeast with the xylose isomerase (XI) pathway was constructed by the multicopy integration of XI overexpression cassettes into the genome of the Saccharomyces cerevisiae MT8-1 strain. The resulting yeast strain successfully produced ethanol from both xylose as the sole carbon source and a mixed sugar, consisting of xylose and glucose, without any adaptation procedure. Ethanol yields in the fermentation from xylose and mixed sugar were 61.9% and 62.2% of the theoretical carbon recovery, respectively. Knockout of GRE3, a gene encoding nonspecific aldose reductase, of the host yeast strain improved the fermentation profile. Not only specific ethanol production rates but also xylose consumption rates was improved more than twice that of xylose-metabolizing yeast with the XI pathway using GRE3 active yeast as the host strain. In addition, it was demonstrated that xylitol in the medium exhibits a concentration-dependent inhibition effect on the ethanol production from xylose with the yeast harboring the XI-based xylose metabolic pathway. From our findings, the combination of XI-pathway integration and GRE3 knockout could be result in a consolidated xylose assimilation pathway and increased ethanol productivity.

  SPRINGER, 2010年11月, APPLIED MICROBIOLOGY AND BIOTECHNOLOGY, 88(5) (5), 1215 - 1221, 英語

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  研究論文（学術雑誌）


• Construction of a xylose-metabolizing Saccharomyces cerevisiae by integration of xylose isomerase gene into the genome and investigation of the effect of xylITOl on fermentation

  Takanori Tanino, Atsushi Hotta, Tomonori Ito, Jun Ishii, Ryosuke Yamada, Tomohisa Hasunuma, Chiaki Ogino, Naoto Ohmura, Takayuki Ohima, Akihiko Kondo

  2010年11月, Applied Microbiology and Biotechnology, 88, 1215-1221, 英語

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  研究論文（学術雑誌）


• Direct ethanol production from cellulosic materials at high temperature using the thermotolerant yeast Kluyveromyces marxianus displaying cellulolytic enzymes.; Applied Microbiology and Biotechnology

  YANASE, Shuhei, HASUNUMA Tomohisa, YAMADA Ryosuke, TANAKA Tsutomu, OGINO Chiaki, FUKUDA Hideki, KONDO Akihiko

  2010年09月, Applied Microbiology and Biotechnology, 88(1), 381-388, 英語

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  研究論文（学術雑誌）


• Co-fermentation of cellobiose and xylose using beta-glucosidase displaying diploid industrial yeast strain OC-2

  SAITO, S, HASUNUMA Tomohisa, TANAKA Tsutomu, KONDO Akihiko

  2010年08月, Applied Microbiology and Biotechnology, 87(5), 1975-1982, 英語

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  研究論文（学術雑誌）


• Ethanol production from cellulosic materials using cellulase expressing yeast

  YANASE, Shuhei, YAMADA Ryosuke, KANEKO, S, NODA, H, HASUNUMA Tomohisa, TANAKA Tsutomu, OGINO Chiaki, FUKUDA Hideki, KONDO Akihiko

  2010年05月, Biotechnology Journal, 5, 449-455, 英語

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  研究論文（学術雑誌）


• Metabolic turnover analysis by a combination of in vivo C-13-lABEling from (CO2)-C-13 and metabolic profiling with CE-MS/MS reveals rate-limiting steps of the C-3 photosynthetic pathwaty in Nicotiana tabacum leaves

  HASUNUMA, Tomohisa, HARADA, K, MIYAZAWA, S, KONDO, Akihiko

  2010年03月, Journal of Experimental Botany, 61(4), 1041-1051, 英語

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  研究論文（学術雑誌）


• Metabolic pathway engineering by plastid transformation is a powerful tool for production of compounds in higher plants

  Tomohisa Hasunuma, Akihiko Kondo, Chikahiro Miyake

  Plastid transformation is a powerful tool for the production of useful compounds in higher plants through metabolic engineering, because it has many advantages over conventional nuclear transformation: high-level foreign protein accumulation, no need for a transit peptide, absence of gene silencing, and convenient transgene stacking in an operon. Plastid transformation has recently yielded remarkable results in the production of highly valued biopharmaceutical proteins and in conferring herbicide and insect resistance. Metabolic pathway engineering by plastid transformation has also produced higher levels of useful compounds than nuclear transformation. furthermore, recent reports have shown the functional regulation of transgene expression from the plastid genome. In this review, we have focused on the progress of plastid transformation in material production from the aspect of biosynthetic pathway engineering, discussing the issues for future expansion of plastid transformation.

  JAPANESE SOC PLANT CELL & MOLECULAR BIOL, 2009年03月, PLANT BIOTECHNOLOGY, 26(1) (1), 39 - 46, 英語

  [査読有り]

  研究論文（学術雑誌）


• Biosynthesis of astaxanthin in tobacco leaves by transplastomic engineering

  蓮沼 誠久, 宮澤 真一, 吉村 智美, 新崎 由紀, 富澤 健一, 新藤 一敏, CHOI Seon-Kang, 三沢 典彦, 三宅 親弘

  2008年09月, The Plant Journal, Vol 55. No. 5, pp. 857-868, 英語

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  研究論文（学術雑誌）


• Overexpression of 1-deoxy-D-xylulose-5-phosphate reductoisomerase gene in chloroplast contributes to increment of isoprenoid production

  蓮沼 誠久, 武野 真也, 林 俊介, 千代 真由美, 馬場 健史, 吉村 智美, 富澤 健一, 福崎 英一郎, 三宅 親弘

  2008年05月, Journal of Bioscience and Biotechnology, Vol 105. No. 5, pp. 518-526, 英語

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  研究論文（学術雑誌）


• 4-Ketoantheraxanthin, a novel carotenoid produced by the combination of the bacterial enzyme b-carotene ketolase CrtW and endogeneous carotenoid biosynthetic enzymes in hihger plants

  新藤 一敏, 蓮沼 誠久, ASAGI Emiko, SANO Aya, HOTTA Eri, MINEMURA Noriko, 三宅 親弘, 眞岡 孝至, 三沢 典彦

  2008年03月, Tetrahedron Letters, Vol 49. No. 20, pp. 3294-3296, 英語

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  研究論文（学術雑誌）


• Expression of fungal pectin methylesterase in transgenic tobacco leads to alteration cell wall metabolism and a dwarf phenotype

  蓮沼 誠久, 福崎 英一郎, 小林 昭雄

  2004年08月, Journal of Biotechnology, Vol 111. No. 3, pp. 241-251, 英語

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  研究論文（学術雑誌）


• Real-time quantification of methanol in plants using a hybrid alcohol oxidase-peroxidase biosensor

  蓮沼 誠久, 福崎 英一郎, 桑畑 進, 小林 昭雄

  2004年03月, Analytical Chemistry, Vol 76. No. 5, pp. 1500-1506, 英語

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  研究論文（学術雑誌）


• Methanol production is enhanced by expression of an Aspergillus niger pectin methylesterase in tobacco cells

  蓮沼 誠久, 福崎 英一郎, 小林 昭雄

  2003年12月, Journal of Biotechnology, Vol 106. No. 1, pp. 45-52, 英語

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  研究論文（学術雑誌）


• SELEX for tubulin affords specific T-rich DNA aptamers

  福崎 英一郎, 蓮沼 誠久, 梶山 慎一郎, 岡澤 敦司, 伊藤 知彦, 小林 昭雄

  2001年11月, Bioorganic & Medicinal Chemistry Letters, Vol. 11, No. 22, pp. 2927-2930, 英語

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  研究論文（学術雑誌）

• 特集 CO2から有用物質を生産し低炭素社会実現へ：AIと代謝工学を組み合わせ生産株開発を加速

  蓮沼誠久

  2023年01月, JST news, 1, 10 - 11, 日本語


• 第4章 生物工学のこれから これからの生物育種 -代謝工学による育種のこれから-

  蓮沼誠久

  2022年10月, 日本生物工学会100年史, 58 - 60, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 第3章 生物工学の研究100年 育種技術 -突然変異から代謝工学へ-

  近藤昭彦, 蓮沼誠久, 秀瀬涼太

  2022年10月, 日本生物工学会100年史, 29 - 31, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 微生物の高速育種を実現するスマートセル創出プラットフォーム

  蓮沼誠久, 秀瀬涼太, 番場崇弘

  2022年04月, 化学工学 [特集]「生物機能を利用したモノづくり」に貢献するプロセス強化, 86(4) (4), 157 - 160, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 進化する酵母細胞表層工学 -バイオインターフェイスの高度利用に向けた技術戦略-

  猪熊健太郎, 蓮沼誠久

  2022年03月, オレオサイエンス, 22(3) (3), 99 - 105, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 光合成メタボロミクスの物質生産への応用

  加藤悠一, 秀瀬涼太, 蓮沼誠久

  2021年09月, 生物工学会誌, 99(9) (9), 456 - 460, 日本語


• 特集 藻類バイオマス利用のための新しい生物工学

  蓮沼誠久, 新井宗仁

  2021年08月, 生物工学会誌, 99(8) (8), 403 - 403, 日本語


• スマートセルインダストリーの形成に向けたバイオ×デジタルの技術開発

  蓮沼 誠久

  2020年02月, 化学工学, 84(2) (2), 51, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 新たに設計した代謝経路を用いた大腸菌によるアルカロイド高生産

  蓮沼 誠久, Christopher John Vavricka Jr., 荒木通啓

  2020年01月, バイオサイエンスとインダストリー, 78(1) (1), 32 - 33, 日本語

  記事・総説・解説・論説等（学術雑誌）


• スマートセル開発に資するメタボロミクス技術

  蓮沼 誠久

  2019年09月, バイオサイエンスとインダストリー, 77(5) (5), 410 - 411, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 細胞表層提示酵母を利用したクラフトパルプからのキシリトール生産

  番場 崇弘, 猪熊 健太郎, Gregory Guirimand, 蓮沼 誠久

  2019年09月, バイオサイエンスとインダストリー, 77(5) (5), 390 - 392, 日本語

  記事・総説・解説・論説等（学術雑誌）


• Mechanism-based tuning of insect 3,4-dihydroxyphenylacetaldehyde synthase for synthetic bioproduction of benzylisoquinoline alkaloids.

  Christopher J Vavricka, Takanobu Yoshida, Yuki Kuriya, Shunsuke Takahashi, Teppei Ogawa, Fumie Ono, Kazuko Agari, Hiromasa Kiyota, Jianyong Li, Jun Ishii, Kenji Tsuge, Hiromichi Minami, Michihiro Araki, Tomohisa Hasunuma, Akihiko Kondo

  Previous studies have utilized monoamine oxidase (MAO) and L-3,4-dihydroxyphenylalanine decarboxylase (DDC) for microbe-based production of tetrahydropapaveroline (THP), a benzylisoquinoline alkaloid (BIA) precursor to opioid analgesics. In the current study, a phylogenetically distinct Bombyx mori 3,4-dihydroxyphenylacetaldehyde synthase (DHPAAS) is identified to bypass MAO and DDC for direct production of 3,4-dihydroxyphenylacetaldehyde (DHPAA) from L-3,4-dihydroxyphenylalanine (L-DOPA). Structure-based enzyme engineering of DHPAAS results in bifunctional switching between aldehyde synthase and decarboxylase activities. Output of dopamine and DHPAA products is fine-tuned by engineered DHPAAS variants with Phe79Tyr, Tyr80Phe and Asn192His catalytic substitutions. Balance of dopamine and DHPAA products enables improved THP biosynthesis via a symmetrical pathway in Escherichia coli. Rationally engineered insect DHPAAS produces (R,S)-THP in a single enzyme system directly from L-DOPA both in vitro and in vivo, at higher yields than that of the wild-type enzyme. However, DHPAAS-mediated downstream BIA production requires further improvement.

  2019年05月01日, Nature communications, 10(1) (1), 2015 - 2015, 英語, 国際誌

  神戸大学リポジトリ（Kernel）へのリンク


• Branch Spirit

  蓮沼 誠久

  2019年03月, 生物工学会誌, 97(3) (3), 150 - 151, 日本語

  記事・総説・解説・論説等（学術雑誌）


• チャンスを掴むための準備, バイオ系のキャリアデザイン

  蓮沼 誠久

  2018年10月, 生物工学会, 96(10) (10), 598 - 601, 日本語

  記事・総説・解説・論説等（学術雑誌）


• バイオリファイナリー実現を加速する先端バイオ技術と情報技術の融合

  蓮沼 誠久

  2017年11月, アグリバイオ, 1(12) (12), 24 - 29, 日本語

  記事・総説・解説・論説等（学術雑誌）


• Complete Genome Sequence of Kluyveromyces marxianus NBRC1777, a Nonconventional Thermotolerant Yeast (vol 3, e00389-15, 2015)

  Kentaro Inokuma, Jun Ishii, Kiyotaka Y. Hara, Masao Mochizuki, Tomohisa Hasunuma, Akihiko Kondo

  AMER SOC MICROBIOLOGY, 2017年02月, MICROBIOLOGY RESOURCE ANNOUNCEMENTS, 5(5) (5), 英語

  その他


• 多彩な戦略で挑むシアノバクテリア由来の燃料生産 持続可能な第三世代バイオ燃料生産の最前線

  日原 由香子, 朝山 宗彦, 蘆田 弘樹, 天尾 豊, 新井 宗仁, 栗井 光一郎, 得平 茂樹, 小山内 崇, 鞆 達也, 成川 礼, 蓮沼 誠久, 増川 一

  日本農芸化学会 ; 1962-, 2017年02月, 化学と生物, 55(2) (2), 88 - 97, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 微細藻類を利用したバイオ燃料とカロテノイド類の生産

  加藤 悠一, 蓮沼 誠久

  2016年11月, レーザー研究, 11, 731 - 734, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 原子間力顕微鏡による酵母細胞表層セルラーゼの局在評価

  猪熊 健太郎, 竹中武蔵, 荻野 千秋, 蓮沼 誠久, 近藤 昭彦

  2016年11月, 生物工学, 94(11) (11), 698 - 700, 日本語

  [査読有り]

  記事・総説・解説・論説等（学術雑誌）


• 次世代バイオエタノール製造技術

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  シーエムシー出版, 2016年10月, バイオマスエネルギーの技術と市場, 第4章, 33 - 45, 日本語

  [査読有り]

  記事・総説・解説・論説等（学術雑誌）


• 代謝プロファイリング法の微生物育種技術への応用

  蓮沼 誠久

  2016年, Journal of Environmental Biotechnology, 16(1) (1), 51 - 58, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 2S-Ca04 Development of microbial cell factories for biorefinery(アジアにおける最新バイオリファイナリー研究)

  Tomohisa Hasunuma, Akihiko Kondo

  日本生物工学会, 2015年, 日本生物工学会大会講演要旨集, 67, 250 - 250, 英語


• 好気・低濃度グルコース条件下におけるSaccharomyces cerevisiaeの転写解析

  崎濱由梨, 蓮沼誠久, 蓮沼誠久, 近藤昭彦, 近藤昭彦

  2015年, 日本生物工学会大会講演要旨集, 67th


• Saccharomyces cerevisiaeの糖代謝における転写制御ネットワークの予測

  南部由美子, 南部由美子, 崎濱由梨, 荒木道啓, 蓮沼誠久, 近藤昭彦, 近藤昭彦

  2015年, 日本生物工学会大会講演要旨集, 67th


• 3P-045 バイオマス糖化液由来成分が大腸菌のフェニル乳酸発酵に与える影響(オミクス解析,一般講演)

  川口 秀夫, 寺村 浩, 中村 聡子, 荻野 千秋, 原 清敬, 蓮沼 誠久, 老沼 研一, 高谷 直樹, 平野 恒, 佐塚 隆志, 北野 英己, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 206 - 206, 日本語


• 3P-044 バイオ医薬開発に有用なCHO細胞の改良、培養状態解明につながるデータの構築(オミクス解析,一般講演)

  伊賀 朋世, 蓮沼 誠久, 荒木 通啓, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 205 - 205, 日本語


• 1P-134 酵母によるタンパクの高効率細胞表層提示ならびに分泌生産のための新規分泌シグナル配列の検討(発酵生理学,発酵工学,一般講演)

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 51 - 51, 日本語


• 3P-205 塩ストレス下での海洋性シアノバクテリアの代謝プロファイリング(生物化学工学,一般講演)

  西田 篤実, 藍川 晋平, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 246 - 246, 日本語


• 3P-229 PHO13遺伝子の欠損がキシロースイソメラーゼ導入酵母のエタノール生産へ与える影響(生物化学工学,一般講演)

  番場 崇弘, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 252 - 252, 日本語


• 2P-132 海産性緑藻Chlamydomonas sp. JSC4の細胞組成評価と代謝解析に基づいた油脂高生産系の開発(バイオマス,資源,エネルギー工学,一般講演)

  中西 昭仁, 賀 詩欣, 張 嘉修, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 139 - 139, 日本語


• 2P-136 Effect of illumination coupled with nitrogen depletion on biodiesel production of a marine microalga Chlamydomonas sp. JSC4 :

  Ho Shih-Hsin, Nakanishi Akihito, Ye Xiaoting, Chang Jo-Shu, Hara Kiyotaka, Kondo Akihiko, Hasunuma Tomohisa

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 140 - 140, 英語


• 2P-095 アミラーゼ表層提示酵母によるラン藻スピルリナからの高濃度エタノール生産(酵素学,酵素工学,一般講演)

  藍川 晋平, 猪熊 健太郎, 佐々木 建吾, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 130 - 130, 日本語


• 2A-Dp01 代謝プロファイリングに基づく微生物育種技術の開発(生物工学奨励賞(斎藤賞),受賞講演)

  蓮沼 誠久

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 98 - 98, 日本語


• 1P-110 コリネ菌におけるフルフラールの分解(発酵生理学,発酵工学,一般講演)

  柘植 陽太, 堀 良美, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 44 - 44, 日本語


• 3S-Ba05 代謝系解析に基づく藻類からの液体燃料生産への挑戦(光合成微生物等を用いたエネルギー生産とCO_2固定,シンポジウム)

  蓮沼 誠久

  日本生物工学会, 2014年, 日本生物工学会大会講演要旨集, 66, 177 - 177, 日本語


• キシロース資化性酵母における遺伝子発現プロファイルの経時変化解析

  南部由美子, 崎濱由梨, 蓮沼誠久, 蓮沼誠久, 近藤昭彦, 近藤昭彦

  2014年, 日本生物工学会大会講演要旨集, 66th


• Kluyveromyces marxianusの好気条件での糖代謝系の解析

  崎濱由梨, 蓮沼誠久, 蓮沼誠久, 近藤昭彦, 近藤昭彦

  2014年, 日本生物工学会大会講演要旨集, 66th


• バイオリファイナリー社会に向けた燃料・化学品生産

  石井 純, 蓮沼 誠久, 松田 史生, 近藤 昭彦

  2013年08月, 安全工学, 52(4) (4), 249 - 255, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 革新的なものづくり実現のための「合成生物工学」

  石井 純, 蓮沼 誠久, 松田 史生, 近藤 昭彦

  日本生物工学会, 2013年06月, 生物工学会誌, 91(6) (6), 314 - 318, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 1P-104 キシロース資化性Saccharomyces cerevisiaeにおける代謝プログラム制御によるギ酸・酢酸耐性関連遺伝子の同定(一般講演(発酵生理学,発酵工学))

  阪本 貴俊, 堀 良美, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 43 - 43, 日本語


• 1P-185 緑藻Chlamydomonas orbicularisを用いた海水塩存在下での油脂高生産条件の開発(一般講演(バイオマス,資源,エネルギー工学))

  中西 昭仁, 賀 詩欣, 藍川 晋平, 張 嘉修, 近藤 昭彦, 蓮沼 誠久

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 64 - 64, 日本語


• 1P-196 Phototrophic cultivation of a marine microalga Chlamydomonas orbicularis for CO_2 fixation and biodiesel production: Effect of medium composition, nitrogen depletion, and sea salt concentration :

  Ho Shih-Hsin, Nakanishi Akihito, Aikawa Shimpei, Chang Jo-Shu, Kondo Akihiko, Hasunuma Tomohisa

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 66 - 66, 英語


• 1P-186 海洋性シアノバクテリアによるバイオリファイナリーのためのグリコーゲン生産(一般講演(バイオマス,資源,エネルギー工学))

  西田 篤実, 藍川 晋平, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 64 - 64, 日本語


• 1P-146 キシロース資化性Saccharomyces cerevisiaeにおけるリン酸シグナル伝達系の制御によるキシロースからのエタノール生産の高効率化(一般講演(代謝工学))

  蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 54 - 54, 日本語


• 1P-191 海水中のイオン濃度が糖質源Spirulinaの増殖・光合成に与える影響(一般講演(バイオマス,資源,エネルギー工学))

  藍川 晋平, 秋本 誠志, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 65 - 65, 日本語


• 1P-184 統合型リグノセルロース系エタノール生産プロセスに資する新規酵母細胞表層提示システムの開発(一般講演(バイオマス,資源,エネルギー工学))

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 63 - 63, 日本語


• 2P-148 稲わら希硫酸処理液のナノフィルトレーションによる糖濃縮(バイオマス,資源,エネルギー工学,一般講演)

  佐々木 建吾, 蓮沼 誠久, 荻野 千秋, 近藤 昭彦

  日本生物工学会, 2013年, 日本生物工学会大会講演要旨集, 65, 141 - 141, 日本語


• 統合バイオプロセスによる環境調和型セルロース系エタノール生産に資する前処理技術の開発

  崎濱由梨, 俣野結城, 蓮沼誠久, 蓮沼誠久, 近藤昭彦, 近藤昭彦

  2013年, 日本生物工学会大会講演要旨集, 65th


• 発酵阻害物存在下におけるキシロースからのエタノール発酵向上酵母の構築

  崎濱由梨, 蓮沼誠久, 近藤昭彦

  2013年, 日本農芸化学会大会講演要旨集(Web), 2013


• Cyanobacterium Synechocystis sp. PCC6803 におけるO2存性オルタナティブ・エレクトロン・フロー (AEF)の生理的役割

  林 良祐, 清水 聡子, 山本 宏, 藍川 晋平, 蓮沼 誠久, 秋本 誠志, 近藤 昭彦, 三宅 親弘

  2012年03月, 第53回日本植物生理学会, 日本語


• 2Gp16 リパーゼ分泌挙動の異なる糸状菌Rhizopus oryzaeのメタボローム解析(代謝工学/脂質工学,一般講演)

  吉田 あゆみ, 濱 真司, 蓮沼 誠久, 山本 博之, 近藤 昭彦

  日本生物工学会, 2012年, 日本生物工学会大会講演要旨集, 64, 65 - 65, 日本語


• 有用希少イノシトールのバイオアベイラビリティーとバイオコンバージョン生産

  吉田 健一, 蓮沼 誠久

  日本生物工学会, 2011年10月, 生物工学会誌, 89(10) (10), 585 - 588, 日本語

  記事・総説・解説・論説等（学術雑誌）


• ＣＢＰ用スーパー酵母を用いたバイオエタノール生産技術の開発

  蓮沼 誠久, 荻野 千秋, 近藤 昭彦

  2011年10月, ブレインテクノニュース, 144, 17 - 22, 日本語

  記事・総説・解説・論説等（学術雑誌）


• バイオマスからの効率的なバイオ燃料の生産技術 (特集 本格化するバイオマスエネルギー開発)

  蓮沼 誠久, 近藤 昭彦

  化学工業社, 2011年09月, ケミカルエンジニヤリング, 56(9) (9), 661 - 668, 日本語


• バイオマスからの効率的なバイオ燃料の生産技術

  蓮沼 誠久, 近藤 昭彦

  2011年09月, ケミカルエンジニヤリング, 56(9) (9), 5 - 12, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 11 シアノバクテリアでのオルタナティブ・エレクトロン・フロー(AEF)評価系の確立(関西支部講演会,2010年度各支部会講演要旨)

  進藤 沙織, 林 吉祐, 真野 陽人, 杉本 敏男, 近藤 昭彦, 藍川 晋平, 蓮沼 誠久, 秋本 誠志, 三宅 親弘

  一般社団法人日本土壌肥料学会, 2011年08月08日, 日本土壌肥料学会講演要旨集, (57) (57), 329 - 329, 日本語


• 微細藻類によるバイオリファイナリー

  蓮沼 誠久, 藍川 晋平, 和泉 自泰, 近藤 昭彦

  2011年04月, 生物工学会誌, 89(4) (4), 181 - 183, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 2Ip14 回転式発酵槽を用いた稲わら水熱処理物からのエタノール生産の効率化(生物化学工学,一般講演)

  俣野 結城, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2011年, 日本生物工学会大会講演要旨集, 63, 180 - 180, 日本語


• 2Ka04 フラン化合物存在下でのXR-XDH発現酵母を用いたキシロース発酵におけるNADH依存性Adh1過剰発現のインパクト(代謝工学/培養工学,一般講演)

  石井 純, 吉村 一也, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2011年, 日本生物工学会大会講演要旨集, 63, 187 - 187, 日本語


• バイオマスからのバイオ燃料生産に向けた戦略

  近藤 昭彦, 荻野 千秋, 蓮沼 誠久, 田中 勉, 中島 一紀

  2010年11月, バイオインダストリー, 11, 6-12, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 次世代燃料・化成品原料製造に向けたバイオリファイナリー戦略

  近藤 昭彦, 荻野 千秋, 蓮沼 誠久, 田中 勉, 中島 一紀

  2010年07月, 生物工学, 88(7), 333-335, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 2-IV-14 D-アラビノースは酵母エリスロアスコルビン酸の内在性前駆体ではない(一般演題,日本ビタミン学会第62回大会発表要旨)

  尼子 克己, 森村 健一, 蓮沼 誠久, 近藤 昭彦, 合田 清

  日本ビタミン学会, 2010年04月25日, ビタミン, 84(4) (4), 206 - 206, 日本語


• 3P-1119 発酵阻害物存在下におけるキシロースからの効率的なエタノール生産(3a発酵生理学,発酵工学,一般講演,代謝生理学・発酵生産,伝統の技と先端科学技術の融合)

  三田 智也, 山田 亮祐, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2010年, 日本生物工学会大会講演要旨集, 22, 87 - 87, 日本語


• 3S-Ba04 微細藻を利用したバイオ燃料生産システムの構築へ向けて(物質生産ツールとしての微細藻-電子指向型バイオテクノロジー(e-バイオ)を起点とする藻類工学の夜明け-,シンポジウム,伝統の技と先端科学技術の融合)

  近藤 昭彦, 蓮沼 誠久

  日本生物工学会, 2010年, 日本生物工学会大会講演要旨集, 22, 202 - 202, 日本語


• 2P-2051 キシロース資化性Saccharomyces cerevisiaeにおけるアルコールデヒドロゲナーゼ過剰発現およびフラン化合物存在下でのキシロース発酵特性(5c バイオマス,資源,エネルギー工学,一般演題,環境バイオテクノロジー,伝統の技と先端科学技術の融合)

  吉村 一也, 石井 純, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2010年, 日本生物工学会大会講演要旨集, 22, 119 - 119, 日本語


• 3P-1011 ワイン酵母OC-2トリプルマーカー株をプラットフォームとした高β-グルコシダーゼ活性と高キシロシダーゼ活性を持つキシロース発酵酵母の作製(1b遺伝子工学,一般講演,遺伝学,分子生物学および遺伝子工学,伝統の技と先端科学技術の融合)

  齋藤 聡志, 田中 勉, 蓮沼 誠久, 近藤 昭彦

  日本生物工学会, 2010年, 日本生物工学会大会講演要旨集, 22, 60 - 60, 日本語


• Applications of yeast cell-surface display in bio-refinery

  Akihiko Kondo, Tsutomu Tanaka, Tomohisa Hasunuma, Chiaki Ogino

  The dependency on depleting natural resources is a challenge for energy security that can be potentially answered by bioenergy. Bioenergy is derived from starchy and lignocellulosic biomass in the form of bioethanol or from vegetable oils in the form of biodiesel fuel. The acid and enzymatic methods have been developed for the hydrolysis of biomass and for transesterifiaction of plant oils. However, acid hydrolysis results in the production of unnatural compounds which has adverse effects on yeast fermentation. Recent advancements in the yeast cell surface engineering developed strategies to genetically immobilize amylolytic, cellulolytic and xylanolytic enzymes on yeast cell surface for the production of fuel ethanol from biomass. This review gives an insight in to the recent technological developments in the production of bioenergy, i.e, bioethanol using surface engineered yeast. © 2010 Bentham Science Publishers Ltd.

  2010年, Recent Patents on Biotechnology, 4(3) (3), 226 - 234, 英語

  [査読有り]

  記事・総説・解説・論説等（学術雑誌）


• SB-O5 Dynamic metabolic profiling in plant leaves using in vivo stable isotope labeling(Section XI Systems Biotechnology/Metabolic Engineering)

  Hasunuma Tomohisa, Kondo Akihiko, Fukusaki Eiichiro

  公益社団法人日本生物工学会, 2009年11月, Journal of bioscience and bioengineering, 108(1) (1), S167, 英語


• Dynamic metabolic profiling in plant leaves using in vivo stable isotope labeling

  Tomohisa Hasunuma, Akihiko Kondo, Eiichiro Fukusaki

  SOC BIOSCIENCE BIOENGINEERING JAPAN, 2009年11月, JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 108, S167 - S167, 英語

  研究発表ペーパー・要旨（国際会議）


• Bioethaol fermentation from mixed sugar by the recombinant yeast with xyloseisomerase pathway

  Tanino Takanori, Hotta Atsushi, Ito Tomonori, Ishii Jun, Yamada Ryosuke, Hasunuma Tomohisa, Ogino Chiaki, Ohmura Naoto, Ohshima Takayuki, Kondo Akihiko

  公益社団法人日本生物工学会, 2009年11月, JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 108(1) (1), S53, 英語

  [査読有り]

  研究発表ペーパー・要旨（国際会議）


• Bioethanol production from mixed sugars using sugar uptake ability enhanced yeast strain by overexpression of transporters

  Hotta Atsushi, Tanino Takanori, Ito Tomonori, Hasunuma Tomohisa, Ogino Chiaki, Kondo Akihiko, Ohmura Naoto

  2009年11月, JOURNAL OF BIOSCIENCE AND BIOENGINEERING, 108, S53, 英語

  [査読有り]

  研究発表ペーパー・要旨（国際会議）


• バイオマスからの化学品生産を目指したバイオプロセスの開発

  蓮沼 誠久, 岡野 憲司, 舘野 俊博, 近藤 昭彦

  2009年03月, ケミカルエンジニヤリング, Vol 54. No. 3, pp. 24-30, 日本語

  記事・総説・解説・論説等（学術雑誌）


• 3S15a04 合成生物工学-シンセティックバイオエンジニアリング-によるバイオプロダクション(システムバイオテクノロジーが拓く生命工学,シンポジウム)

  近藤 昭彦, 福崎 英一郎, 蓮沼 誠久

  日本生物工学会, 2009年, 日本生物工学会大会講演要旨集, 21, 292 - 292, 日本語


• ¹³CO₂を用いた同位体標識による葉内代謝物質のターンオーバー解析

  蓮沼誠久, 原田和生, 三宅親弘, 福崎英一郎

  2008年, 生化学


• 代謝産物量の定量 安定同位体標識を利用した動的代謝プロファイリング (光合成研究法) -- (単離・精製・活性測定)

  蓮沼 誠久, 原田 和生, 三宅 親弘, 福崎 英一郎

  生体試料に含まれる代謝産物の量的情報をMSやNMRを利用して網羅的に解析する代謝プロファイリング技術は，微量な中間代謝物質を含む多様な化合物の一斉分析を可能にしたが，ここで得られる情報は代謝物質を抽出した時点での蓄積量のスナップショットであった．生体内で代謝物質が動的定常状態にある時，総量は変わらずに一定の同じ速度で分解と合成が行われて入れ替わっており，新規合成される物質の存在比率を知るためには安定同位体を用いたin vivo標識が必須である．代謝プロファイリングと安定同位体標識法の組合せを利用した「動的代謝プロファイリング」は，代謝産物の量的変動を網羅的に観測することを可能にする．植物の環境変化やストレスに対する応答はシステマティックな代謝変動に基づくことが予想され，「動的代謝プロファイリング」はこうした複雑な応答機構の解明に寄与することが期待できる．Metabolic profiling technique has enabled to analyze the level of various metabolites including minor intermediates by using MS or NMR simultaneously, but the information available from the technique was snapshot in vivo at the time of sampling metabolites. In the dynamic steady state, metabolites are replaced with newly-synthesized compounds at a constant rate and the total amount of metabolites remains unchanged. Therefore, in vivo labeling with stable isotopes is necessary for the determination of turnover rates of metabolites. Dynamic metabolic profiling formed by the combination of metabolic profiling and stable isotope labeling technique enables to determine changes in metabolic flux exhaustively. In plants, responses to stress or environmental changes would be based on systematic variations in metabolism. The dynamic metabolic profiling would contribute to elucidate the complicated response mechanism.光合成研究法. 北海道大学低温科学研究所, 日本光合成研究会共編

  北海道大学低温科学研究所 = Institute of Low Temperature Science, Hokkaido University, 2008年, 低温科学, 67, 169 - 174, 日本語


• 2H11-4 Aspergillus niger 由来ペクチンメチルエステラーゼの植物内過剰発現によるメタノール増産と植物矮化

  蓮沼 誠久, 福崎 英一郎, 岡澤 敦司, 梶山 慎一郎, 小林 昭雄

  公益社団法人日本生物工学会, 2003年08月25日, 日本生物工学会大会講演要旨集, 15, 日本語


• 623 チューブリン特異的DNAアプタマーのin vitro selection

  蓮沼 誠久, 福崎 英一郎, 岡澤 敦司, 梶山 慎一郎, 小林 昭雄

  公益社団法人日本生物工学会, 2000年07月10日, 日本生物工学会大会講演要旨集, 12, 日本語

• クリーンエネルギーの技術と市場 2022

  猪熊健太郎, 蓮沼誠久

  共著, 第9章 バイオマス燃料生産の技術動向, シーエムシー出版, 2022年02月


• 醸造の辞典

  蓮沼誠久

  第2章 醸造の科学, 最近の育種技術, 朝倉書店, 2021年06月


• バイオリアクターのスケールアップと物質生産事例集

  蓮沼誠久

  第11章 スマートセルの動向と効率的創製に向けたAI活用, 第1節 国内におけるスマートセルの動向, 技術情報協会, 2021年04月


• メタボロミクス 実践ガイド

  蓮沼誠久

  応用・展望編 Ⅰ. 応用研究 代謝工学分野へのメタボロミクスの応用, 羊土社, 2021年04月


• Carotenoids: Biosynthetic and Biofunctional Approaches

  Yuichi Kato, Tomohisa Hasunuma

  Metabolic Engineering for Carotenoid Production Using Eukaryotic Microalgae and Prokaryotic Cyanobacteria, Springer, 2021年


• 脱石油に向けたCO2資源化技術―化学・生物プロセスを中心に―

  蓮沼誠久

  共著, 第Ⅲ編 生物プロセス, 第2章 ラン藻によるバイオコハク酸生産, シーエムシー, 2020年07月


• 骨格筋研究を核とした筋スマート社会

  西村 勇哉, 蓮沼 誠久

  共著, 第3章 7. 組織内の分子を網羅的に測る技術, シーエムシー・リサーチ, 2019年06月


• 第9章 油脂酵母による油脂発酵生産性改善へ向けた技術開発, スマートセルインダストリー -微生物細胞を用いた物質生産の展望-, 第3編 産業応用へのアプローチ

  高久 洋暁, 荒木 秀雄, 小笠原 渉, 田代 康介, 蓮沼 誠久, 油谷 幸代, 矢追 克郎

  共著, シーエムシー出版, 2018年06月, 日本語

  学術書


• スマートセル設計に資するメタボローム解析, スマートセルインダストリー -微生物細胞を用いた物質生産の展望-, 第1編 ハイスループット合成・分析・評価技術, 第3章 オミクス解析技術

  蓮沼 誠久

  共著, シーエムシー出版, 2018年06月, 日本語

  学術書


• スマートセルインダストリー –微生物細胞を用いた物質生産の展望–（第1編 ハイスループット合成・分析・評価技術，第2章 ハイスループット微生物構築・評価技術，第1節 「微生物を用いた物質生産とハイスループット微生物構築技術」）

  石井 純, 西 晶子, 北野 美保, 中村 朋美, 庄司 信一郎, 秀瀨 涼太, 蓮沼 誠久, 近藤 昭彦

  共著, シーエムシー出版, 2018年06月, 日本語

  学術書


• スマートセルインダストリー, 総論 -微生物細胞を用いた物質生産の展望-

  蓮沼 誠久, 田村 具博, 近藤 昭彦

  共著, シーエムシー出版, 2018年06月, 日本語

  学術書


• Emerging Areas in Bioengineering：Whole cell biocatalysts using enzymes displayed on yeast cell surface

  Kentaro Inokuma, Tomohisa Hasunuma, Akihiko Kondo

  共著, Wiley-VCH, 2018年02月, 英語

  学術書


• Industrial Biotechnoligy : Products and Processes, Chapter 5, Production of fuels and chemicals from biomass by integrated bioprocesses

  HASUNUMA Tomohisa, KONDO Akihiko

  共著, Wley, 2016年11月, 英語

  学術書


• 応用微生物学，第10章 低炭素化社会への取組み，バイオ燃料

  蓮沼 誠久

  共著, 文永堂出版, 2016年08月, 日本語

  学術書


• Bioprocessing of Renewable Resources to Commodity Bioproducts, Chapter 8, Ethanol production from yeasts

  HASUNUMA Tomohisa, YAMADA Ryosuke, KONDO Akihiko

  共著, Wiley, 2014年04月, 英語

  学術書


• 化学便覧 応用化学編

  近藤 昭彦, 荻野 千秋, 蓮沼 誠久, 石井 純, 原 清敬, 岡井 直子, 山田 亮祐

  共著, 丸善出版, 2014年01月, 日本語

  学術書


• 次世代パワートレイン開発と燃料技術

  蓮沼 誠久, 近藤 昭彦

  共著, シーエムシー出版, 2013年11月, 日本語

  学術書


• リサイクルバイオテクノロジーの最前線, 第I編 第1章, 8 微細藻類・シアノバクテリアからのバイオエタノール生産

  蓮沼 誠久

  共著, シーエムシー出版, 2013年05月, 日本語

  学術書


• リサイクルバイオテクノロジーの最前線, 第I編 第1章, 1 未来型CBP法によるバイオエタノール生産技術の展開

  蓮沼 誠久, 荻野 千秋, 近藤 昭彦

  共著, シーエムシー出版, 2013年05月, 日本語

  学術書


• ひらく、ひらく「バイオの世界」

  崎濱 由梨, 蓮沼 誠久, 近藤 昭彦

  共著, 化学同人, 2012年10月, 日本語

  学術書


• 微細藻類によるエネルギー生産と事業展望

  蓮沼 誠久, 近藤 昭彦

  共著, シーエムシー出版, 2012年07月, 日本語

  学術書


• 藻類ハンドブック

  蓮沼 誠久, 近藤 昭彦

  共著, エヌ・ティー・エス, 2012年07月, 日本語

  学術書


• 合成生物工学の隆起

  蓮沼 誠久, 近藤 昭彦

  共著, シーエムシー出版, 2012年04月, 日本語

  学術書


• 微生物機能学

  蓮沼 誠久, 近藤 昭彦

  共著, 三共出版, 2012年03月, 日本語

  学術書


• バイオマス分解酵素研究の最前線, 第7編, 第28章 セルラーゼ細胞表層提示酵母を用いたバイオマス変換

  山田 亮祐, 蓮沼 誠久, 近藤 昭彦

  共著, シーエムシー出版, 2012年03月, 日本語

  学術書


• バイオマス分解酵素研究の最前線, 序章, 2 バイオマス分解酵素研究の新たな展開

  蓮沼 誠久, 近藤 昭彦

  共著, シーエムシー出版, 2012年03月, 日本語

  学術書


• System Metabolic Engineering

  HASUNUMA Tomohisa, MATSUDA Fumio, KONDO Akihiko

  共著, Springer, 2012年, 英語

  学術書


• エコバイオリファイナリー

  近藤 昭彦, 荻野 千秋, 蓮沼 誠久, 田中 勉, 中島 一紀

  共著, シーエムシー出版, 2010年12月, 日本語

  学術書


• グリーンバイオケミストリーの最前線

  荻野 千秋, 蓮沼 誠久, 近藤 昭彦

  共著, シーエムシー出版, 2010年04月, 日本語

  学術書


• Methods in Molecular Biology

  蓮沼 誠久, 近藤 昭彦, 三宅 親弘

  共著, Humana Press, 2010年02月, 英語

  学術書


• 次世代バイオエタノール生産の技術革新と事業展開, 第7章, ４ アーミング酵母を用いた統合プロセスによるバイオエタノール生産

  蓮沼 誠久, 山田 亮祐, 近藤 昭彦

  共著, フロンティア出版, 2010年01月, 日本語

  学術書


• 次世代バイオエタノール生産の技術革新と事業展開, 第10章, 7 アーミング技術を応用した新規セルロース分解システムの構築

  山田 亮祐, 蓮沼 誠久, 近藤 昭彦

  共著, フロンティア出版, 2010年01月, 日本語

  学術書


• 第二世代バイオ燃料の開発と応用展開

  近藤 昭彦, 福田 秀樹, 荻野 千秋, 田中 勉, 蓮沼 誠久, 原田 和生, 福崎 英一郎

  共著, シーエムシー出版, 2009年04月, 日本語

  学術書


• 水環境の今と未来 藻類と植物のできること

  蓮沼 誠久, 近藤 昭彦

  共著, 生物研究社, 2009年03月, 日本語

  一般書・啓蒙書


• 光合成研究法

  蓮沼 誠久, 原田 和生, 三宅 親弘, 福崎 英一郎

  共著, 北海道大学低温科学研究所・日本光合成研究会共編, 2009年03月, 日本語

  学術書

• ポストコロナ時代の産学連携について考える

  蓮沼誠久

  レーザー学会学術講演会第41回年次大会シンポジウム, 2021年01月, 日本語


• バイオプロセスにおける膜利用の現状と将来展望

  蓮沼誠久

  第一回先端膜工学研究推進機構特定テーマフォーラム～医薬・バイオプロセスにおける膜利用の現状と将来展望～, 2020年12月, 日本語


• Metabolomics-based engineering biology for microbial bio-production with sustainability

  Tomohisa Hasunuma

  2nd ASBA Webinar, 2020年12月, 英語


• ハイスループットプラットフォームの開発による微生物スマートセルの構築

  蓮沼誠久

  CBI学会2020年大会, 2020年10月, 日本語


• 微細藻類を利用した物質生産プロセスへのLEDの応用

  蓮沼誠久, 加藤悠一

  JPC関西特別報告会, 2020年10月, 日本語


• メタボローム解析の自動化に向けた挑戦

  蓮沼誠久

  Laboratory Automation勉強会, 2020年08月, 日本語


• バイオ×デジタルの技術融合による有用微生物「スマートセル」開発への挑戦

  蓮沼誠久

  質量分析インフォマティクス研究会 第５回ワークショップ, 2020年08月, 日本語

  [招待有り]


• スマートセルインダストリーに資するハイスループット微生物構築・評価技術の開発

  蓮沼 誠久

  日本農芸化学会2020年度大会, 日本語


• スマートセル開発に資するハイスループット微生物構築・評価技術の概要

  蓮沼 誠久

  NEDOフェスタin関西 2019, 2019年12月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• 酵母Saccharomyces cerevisiaeの鉄代謝改変に基づくキシロースからの1,2,4-ブタントリオール発酵生産

  湯川貴弘, 番場崇弘, 蓮沼誠久, 近藤昭彦

  日本農芸化学会関西支部 支部例会（第511回講演会）, 2019年12月, 日本語, 国内会議

  口頭発表（一般）


• スマートセルインダストリーに資するメタボローム解析技術の開発と応用

  蓮沼 誠久

  日本農芸化学会関西支部 支部例会（第511回講演会）, 2019年12月, 日本語, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• 藍藻の動的メタボローム解析技術の開発と応用

  蓮沼 誠久

  藍藻の分子生物学2019, 2019年11月, 日本語, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• バイオ×デジタルによるスマートセル開発への挑戦

  蓮沼 誠久

  Bio Japan 2019, 2019年10月, 日本語, 国内会議

  [招待有り]

  シンポジウム・ワークショップパネル（指名）


• Metabolomics-based engineering for smart cell development

  Tomohisa Hasunuma

  Metabolic Engineering Summit 2019, 2019年10月, 英語, 国際会議

  口頭発表（一般）


• Metabolomics-based engineering biology for bio-production

  Tomohisa Hasunuma

  2019 Asian Synthetic Biology Association (ASBA) Meeting, 2019年10月, 英語, 国際会議

  口頭発表（一般）


• Re-design, synthesis, and bio-analysis of sulfosialic acids as covalent inhibitors of neuraminidase

  ヴァヴリッカ クリストファー, 松本達磨, 荒木通啓, 蓮沼誠久, 泉実, 清田洋正

  第61回天然有機化合物討論会, 2019年09月, 英語, 国内会議

  ポスター発表


• スマートセル開発に資するハイスループット微生物構築・評価技術の概要

  蓮沼 誠久

  2019年度NEDOスマートセルプロジェクト技術セミナー, 2019年09月, 日本語, 国内会議

  口頭発表（招待・特別）


• 窒素源存在下で油脂を高蓄積する海洋性クラミドモナス変異株の選択的育種

  小山 智己, 加藤 悠一, 佐藤 勝也, 大野 豊, 蓮沼 誠久, 近藤 昭彦

  第71回日本生物工学会大会, 2019年09月, 日本語, 岡山大学, 国内会議

  口頭発表（一般）


• 食農産業における LED の利活用技術の開発

  藤川 康夫, 鶴本 智大, 泉田 智史, 三島 俊介, 岡澤 敦司, 加藤 悠一, 蓮沼 誠久

  第71回日本生物工学会大会, 2019年09月, 日本語, 岡山大学, 国内会議

  口頭発表（一般）


• 細胞表層提示システムに適した宿主酵母の開発

  猪熊 健太郎, 北田 雄基, 蓮沼 誠久, 近藤 昭彦

  第71回日本生物工学会大会, 2019年09月, 日本語, 岡山大学, 国内会議

  口頭発表（一般）


• 海洋性クラミドモナス油脂高蓄積変異株における油脂・カロテノイド増産メカニズムの解明

  加藤 悠一, 小山 智己, 佐藤 勝也, 大野 豊, 張 嘉修, 蓮沼 誠久, 近藤 昭彦

  第71回日本生物工学会大会, 2019年09月, 日本語, 岡山大学, 国内会議

  口頭発表（一般）


• Pichia pastorisにおいて分泌シグナル配列の１アミノ酸置換はタンパク質分泌生産量を劇的に増大させる

  伊藤 洋一郎, 石上 美佐, 橋場 倫子, 中村 泰之, 蓮沼 誠久, 石井 純, 近藤 昭彦

  第71回日本生物工学会大会, 2019年09月, 日本語, 岡山大学 津島キャンパス, 国内会議

  口頭発表（一般）


• Smart Cell Development Based on High Throughput Technology, Advanced Analysis and Computational Science for Bio-production in Microorganisms

  Tomohisa Hasunuma

  The 14th Asian Congress on Biotechnology (ACB2019), 2019年07月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• 酵母 Scheffersomyces stipitisを用いたバイオマス資源からの有用芳香族化合物生産プロセスの開発

  小林 優真, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  生物工学若手研究者の集い 夏のセミナー2019, 2019年07月, 日本語, 国内会議

  ポスター発表


• Metabolomics-based engineering biology of microorganisms

  Tomohisa Hasunuma

  Metabolomics 2019, 2019年06月, 英語, 国際会議

  口頭発表（一般）


• スマートセル創出プラットフォーム構築へ向けた挑戦

  蓮沼 誠久

  第6回SBJシンポジウム, 2019年05月, 日本語, 千里ライフサイエンスセンター, 国内会議

  口頭発表（一般）


• 緑色LEDを用いた微細藻類バイオマス増産技術の開発

  加藤 悠一, 藤川 康夫, 三島 俊介, 泉田 智史, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2019年度大会, 2019年03月, 日本語, 東京農業大学 世田谷キャンパス, 国内会議

  ポスター発表


• 4-アミノフェニルアラニン発酵における組換え大腸菌の代 謝改変

  川口 秀夫, 若井 桂子, 蓮沼 誠久, 桝尾 俊介, 高谷 直樹, 近藤 昭彦

  日本農芸化学会2019年度大会, 2019年03月, 日本語, 東京農業大学 世田谷キャンパス, 国内会議

  ポスター発表


• スマートセル創出プラットフォームの構築と実証に向けて

  蓮沼 誠久

  関西スマートセルフォーラム2018 第3回セミナー, 2019年01月, 日本語, 大阪中之島センター, 国内会議

  口頭発表（一般）


• Platform Technologies for Development of Smart Cell

  TOMOHISA Hasunuma

  Asian Synthetic Biology Association 2018, 2018年11月, 英語, Hyatt Regency Jeju, 国際会議

  口頭発表（一般）


• Development of "smart cell" construction platform for next-generation microbial breeding

  TOMOHISA Hasunuma

  IEE CPMT Symposium Japan 2018, 2018年11月, 英語, 京都大学, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• Construction of a stable, autonomously replicating plasmid vector containing Pichia pastoris centromeric DNA

  Yasuyuki Nakamura, Teruyuki Nishi, Risa Noguchi, Yoichiro Ito, Toru Watanabe, Tozo Nishiyama, Shimpei Aikawa, Tomohisa Hasunuma, Jun Ishii, Yoshihiko Yasohara, Akihiko Kondo

  The Symposium on Biorefinery and Biprocess Topics, 2018 (iBio-N 2018), 2018年11月, 英語, Nanjing, China, 国際会議

  ポスター発表


• 次世代型微生物育種に資するスマートセル創出プラットフォームの開発

  蓮沼 誠久

  BioJapan 2018, 2018年10月, 日本語, パシフィコ横浜, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• M2p3 Non-conventional酵母 Scheffersomyces stipitisを用いたレスベラトロール生産プロセスの開発

  小林優真, 猪熊健太郎, 蓮沼誠久, 近藤昭彦

  日本農芸化学会 関西・中部支部 2019年度合同神戸大会, 2018年09月, 日本語, 国内会議

  口頭発表（一般）


• 酵母の代謝解析の最新知見と化粧品原料への応用

  蓮沼 誠久

  第70回日本生物工学会大会 SK-IIランチョンセミナー, 2018年09月, 日本語, 国内会議

  公開講演，セミナー，チュートリアル，講習，講義等


• 先端バイオ工学研究センターについて

  蓮沼 誠久

  iBioK第8回合成生物工学シンポジウム, 2018年09月, 日本語, 国内会議

  シンポジウム・ワークショップパネル（指名）


• 二次代謝系の動的特性解析における大過剰化合物測定の有無の影響の数理解析

  富永 大輔, 川口 秀夫, 堀 良美, 蓮沼 誠久, 荻野 千秋, 油谷 幸代

  第70回日本生物工学会大会, 2018年09月, 日本語, 日本生物工学会, 関西大学 千里山キャンパス, 国内会議

  ポスター発表


• 鉄硫黄タンパク質高活性化に基づくキシロースからの1,2,4-ブタントリオール生産技術の開発

  湯川 貴弘, 番場 崇弘, 蓮沼 誠久, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 日本生物工学会, 関西大学 千里山キャンパス, 国内会議

  ポスター発表


• 組換え出芽酵母Saccharomyces cerevisiaeによるキシロースからのグルタチオン生産

  小林 淳平, 佐々木 大介, 番場 崇弘, 蓮沼 誠久, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 関西大学 千里山キャンパス, 国内会議

  ポスター発表


• 接合型変換を利用したセルラーゼ群表層提示酵母の糖化活性及び発酵阻害物耐性向上

  北田 雄基, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 日本生物工学会, 関西大学 千里山キャンパス, 国内会議

  ポスター発表


• 酵母Scheffersomyces stipitisを用いたレスベラトロール生産プロセスの開発

  小林 優真, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 日本生物工学会, 関西大学 千里山キャンパス, 国内会議

  ポスター発表


• 酵母Scheffersomyces stipitisを宿主とした新規細胞表層提示システムの開発

  猪熊 健太郎, 小林 優真, 蓮沼 誠久, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 日本生物工学会, 関西大学 千里山キャンパス, 国内会議

  ポスター発表


• 遺伝子組換え効率向上に向けたDNAリガーゼIV欠損Pichia pastoris株の開発

  伊藤 洋一郎, 渡邉 徹, 藍川 晋平, 西 輝之, 西山 陶三, 中村 泰之, 蓮沼 誠久, 八十原 良彦, 石井 純, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 日本生物工学会, 関西大学 千里山キャンパス, 国内会議

  口頭発表（一般）


• ラン藻窒素代謝メカニズムの解明と物質生産への応用

  見市 絢香, 蓮沼 誠久, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 関西大学 千里山キャンパス, 国内会議

  ポスター発表


• スマートセル創出プラットフォームに資するメタボローム解析技術の開発

  蓮沼 誠久

  第70回日本生物工学会大会, 2018年09月, 日本語, 関西大学 千里山キャンパス, 国内会議

  口頭発表（一般）


• Pichia pastorisにおけるセントロメアDNA配列を用いた自律複製型プラスミドベクターの開発

  中村 泰之, 西 輝之, 野口 理紗, 伊藤 洋一郎, 渡邉 徹, 西山 陶三, 藍川 晋平, 蓮沼 誠久, 石井 純, 八十原 良彦, 近藤 昭彦

  第70回日本生物工学会大会, 2018年09月, 日本語, 日本生物工学会, 関西大学 千里山キャンパス, 国内会議

  口頭発表（一般）


• Temperature dependent succinate biosynthesis concurrent with alteration in central metabolism turnover in synechocystis SP.PCC6803

  TOMOHISA Hasunuma

  The International Symposium on Phototrophic Prokaryotes (ISPP), 2018年08月, 英語, the Life Sciences Centre, The University of Buritish Columbia, 国際会議

  口頭発表（一般）


• 動的メタボロミクスの開発とスマートセルインダストリーへの展開

  蓮沼 誠久

  第13回 アジレントメタボロミクスセミナー, 2018年07月, 日本語, 慶応義塾大学 三田キャンパス, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• スマートセル創出プラットフォームに資するハイスループット微生物構築・評価技術の開発

  蓮沼 誠久

  第20回 新産業技術促進検討会, 2018年07月, 日本語, TKPガーデンシティPREMIUM神保町 プレミアムボールルーム, 国内会議

  口頭発表（一般）


• Dynamic Metabolomics of Crabtree-Negative Yeast Kluyveromyces Marxianus

  TOMOHISA Hasunuma

  Metabolic Engineering 12, 2018年06月, 英語, The Westin Grand Munich, 国際会議

  口頭発表（一般）


• Converting Chlamydomonas sp. JSC4 lipids to biodiesel via biocatalysis with Fusarium heterosporum lipase-expressing Aspergillus oryzae whole-cell

  JEROME Amoah, SHIH-HSIN. Ho, SHINJI Hama, AYUMI Yoshida, AKIHITO Nakanishi, TOMOHISA Hasunuma, CHIAKI Ogino, AKIHIKO Kondo

  The 8th International Conference on Algal Biomass, Biofuels and Bioproducts (AlgalBBB 2018), 2018年06月, 英語, Motif Seattle, 国際会議

  ポスター発表


• スマートセルインダストリーの創出に資する微生物育種プラットフォームの開発

  蓮沼 誠久

  ライフサイエンス技術部会・反応分科会講演会講演会「スマートセルインダストリーに関する研究開発動向」, 2018年02月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• Enhanced protein secretion by accumulation of novel effective factors in Pichia pastoris

  Yoichiro Ito, Yasuyuki Nakamura, Shimpei Aikawa, Tomohisa Hasunuma, Jun Ishii, Akihiko Kondo

  The 9th International Symposium of Innovative BioProduction Kobe (iBioK), 2018年02月, 英語, Kobe, Japan, 国際会議

  ポスター発表


• A new autonomous replicating plasmid vector containing Pichia pastoris centromeric DNA

  Yasuyuki Nakamura, Teruyuki Nishi, Risa Noguchi, Yoichiro Ito, Toru Watanabe, Tozo Nishiyama, Shimpei Aikawa, Tomohisa Hasunuma, Jun Ishii, Yuji Okubo, Akihiko Kondo

  The 9th International Symposium of Innovative BioProduction Kobe (iBioK), 2018年02月, 英語, Kobe, Japan, 国際会議

  ポスター発表


• 藻類オイル生産の実用化に向けた代謝メカニズム解析の重要性

  蓮沼 誠久

  シンポジウム「微細藻類を利用したバイオ燃料生産の研究開発動向」, 2018年01月, 日本語, オフィス東京, 国内会議

  口頭発表（一般）


• Efficient Xylitol Production from Kraft Pulp by a Cell Surface Engineered Strain ofSaccharomyces cerevisiae

  Gregory Guirimand, 猪熊 健太郎, 番場 崇弘, 佐々木 建吾, 荻野 千秋, 蓮沼 誠久, 近藤 昭彦

  5th Asian Conference on Biomass Science, 2018年01月, 英語, 日本エネルギー学会, 仙台市, 国際会議

  ポスター発表


• Engineering Biologyによるバイオリファイナリーの構築とスマートセルインダストリーへの展開

  蓮沼 誠久

  静岡大学グリーン科学研究所 第4回シンポジウム, 2017年11月, 日本語, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• 動的メタボロミクスの開発とスマートセルインダストリーへの展開

  蓮沼 誠久

  第11回メタボロームシンポジウム, 2017年11月, 日本語, ホテル阪急エキスポパーク, 国内会議

  口頭発表（一般）


• Development of dynamic metabolomics and its application to metabolic engineering

  TOMOHISA Hasunuma

  The 8th Kobe University Brussels European Centre Symposium, 2017年11月, 英語, Vrije Universiteit Brussel U-Residence, 国際会議

  口頭発表（一般）


• スマートセルを創出する合成バイオプラットフォームの開発

  蓮沼 誠久

  BioJapan 2017, 2017年10月, 日本語, パシフィコ横浜, 国内会議

  口頭発表（一般）


• 油脂高蓄積クラミドモナス株の選抜育種によるバイオ燃料生産「明暗周期問題」の克服

  加藤 悠一, 藤原 悠右, 小山 智己, 張 嘉修, 蓮沼 誠久, 近藤 昭彦

  第69回日本生物工学会大会, 2017年09月, 日本語, 日本生物工学会, 東京都新宿区, 国内会議

  口頭発表（一般）


• 代謝工学的手法による海洋性ラン藻でのアスタキサンチン生産

  高木 綾湖, 蓮沼 誠久

  第31回カロテノイド研究談話会, 2017年09月, 日本語, 京都薬科大学, 国内会議

  ポスター発表


• 代謝工学による黄色天然色素ルテイン高蓄積クラミドモナス株の創出

  阪口 健太, 加藤 悠一, 蓮沼 誠久, 近藤 昭彦

  第69回日本生物工学会大会, 2017年09月, 日本語, 日本生物工学会, 東京都新宿区, 国内会議

  ポスター発表


• アスタキサンチン生産能を付与した高増殖性ラン藻のトランスクリプトミクスおよび動的メタボロ ミクス

  高木 綾湖, 蓮沼 誠久, 近藤 昭彦

  第69回日本生物工学会大会, 2017年09月, 日本語, 日本生物工学会, 東京都新宿区, 国内会議

  ポスター発表


• Pichia pastorisのタンパク質分泌生産における新規有用因子の獲得とその蓄積による効果の検証

  伊藤 洋一郎, 中村 泰之, 西 輝之, 藍川 晋平, 蓮沼 誠久, 石井 純, 近藤 昭彦

  第69回日本生物工学会大会, 2017年09月, 日本語, 日本生物工学会, 早稲田大学 西早稲田キャンパス, 国内会議

  ポスター発表


• Pichia pastorisにおけるセントロメア配列を含む自律複製型プラスミドの開発

  中村 泰之, 西 輝之, 野口 理紗, 伊藤 洋一郎, 渡邉 徹, 西山 陶三, 藍川 晋平, 蓮沼 誠久, 石井 純, 八十原 良彦, 近藤 昭彦

  第69回日本生物工学会大会, 2017年09月, 日本語, 日本生物工学会, 早稲田大学 西早稲田キャンパス, 国内会議

  ポスター発表


• N-アセチルグルコサミン資化性酵母Scheffersomyces stipitisの基質別代謝特性の解析

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第69回日本生物工学会大会, 2017年09月, 日本語, 日本生物工学会, 東京都新宿区, 国内会議

  口頭発表（一般）


• Enhanced cell surface engineering of Saccharomyces cerevisiae and optimization of the fermentation process for efficient xylitol production from kraft pulp

  Gregory Guirimand, 猪熊 健太郎, 番場 崇弘, 佐々木 建吾, 荻野 千秋, 蓮沼 誠久, 近藤 昭彦

  第69回日本生物工学会大会, 2017年09月, 日本語, 日本生物工学会, 東京都新宿区, 国内会議

  口頭発表（一般）


• Challenge to development of “smart” microorganisms based on information analysis and its application to production of highly functional compounds

  TOMOHISA Hasunuma

  第69回日本生物工学会大会 国際シンポジウム, 2017年09月, 英語, 早稲田大学 西早稲田キャンパス, 国際会議

  口頭発表（一般）


• スマートセルを創出する合成バイオプラットフォームの開発と応用への挑戦

  蓮沼 誠久

  合成生物工学シンポジウム, 2017年08月, 日本語, 神戸大学百年記念館六甲ホール, 国内会議

  口頭発表（一般）


• Enhancement in central metabolism and carotenoid biosynthesis by photosynthetic astaxanthin production in the recombinant marine cyanobacterium

  TOMOHISA Hasunuma

  The 18th International Symposium on Carotenoids 2017, 2017年07月, 英語, The Lucerne Hall, 国際会議

  口頭発表（一般）


• Cell surface engineering of Saccharomyces cerevisiae for biomass breakdown

  TOMOHISA Hasunuma

  SB7.0 The Seventh International Meeting on Synethetic Biology, 2017年06月, 英語, University Cultural Center, 国際会議

  口頭発表（一般）


• 進化した細胞表層工学によるバイオマス変換プロセスの開発と機能性物質生産への新展開

  蓮沼 誠久

  エネルギー・資源技術部会 バイオマス分科会 講演会「バイオマス資源変換触媒の研究動向」, 2017年04月, 日本語, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• 変異チオール酸化酵素による酵母の酸化型グルタチオン 生産

  小林淳平, 佐々木 大介, 原 清敬, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学2017年度大会, 2017年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• 代謝工学によるアスタキサンチン産生海洋性ラン藻の 開発と代謝メカニズムの解明

  高木綾湖, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学2017年度大会, 2017年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• バイオ燃料生産に向けた耐塩性緑藻の進化工学的育種と 塩ストレス耐性による油脂生産低下メカニズムの解明

  加藤 悠一, 賀 詩欣, 張 嘉修, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2017年度大会, 2017年03月, 日本語, 京都女子大学, 国内会議

  口頭発表（一般）


• バイオ燃料生産に向けた耐塩性緑藻の進化工学的育種と 塩ストレス耐性による油脂生産低下メカニズムの解明

  加藤悠一, 賀 詩欣, 張 嘉修, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学2017年度大会, 2017年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• ゲノム編集による Kluyveromyces marxianus の自在な 遺伝子改変

  南部-西田由美子, 西田敬二, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学2017年度大会, 2017年03月, 日本語, 日本農芸化学会, 京都女子大学, 国内会議

  口頭発表（一般）


• Saccharomyces cerevisiae による1,2,4-ブタントリオー ル生産技術の開発

  番場崇弘, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学2017年度大会, 2017年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• 統合型バイオエタノール生産プロセスの構築に資する改良型酵 母細胞表層提示用遺伝子カセットの開発

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第12回バイオマス科学会議, 2017年01月, 日本語, 日本エネルギー学会, 東京都文京区, 国内会議

  口頭発表（一般）


• バイオリファイナリーの構築に資する微生物細胞工場の創製

  蓮沼 誠久

  第21回関西大学先端科学技術シンポジウム, 2017年01月, 日本語, 関西大学 千里山キャンパス, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• 日本独自の超高速微生物育種プラットフォーム「スマートセル・ファウンドリ」の開発

  蓮沼 誠久

  「植物等の生物を用いた高機能品生産技術の開発」キックオフシンポジウム, 2016年11月, 日本語, ベイサイドホテル アジュール竹芝, 国内会議

  口頭発表（一般）


• Development of dynamic metabolic profiling and its application to fuel and chemical production in algae

  TOMOHISA Hasunuma

  The 9th Asia-Pacific Conference on Algal Biotechnology (APCAB), 2016年11月, 英語, Century Park Hotel, 国際会議

  口頭発表（一般）


• 藍藻 Synechocystis sp. PCC 6803 hox遺伝子変異株のコントロールされた培養条件における有機酸 生産

  中島 満晴, 飯嶋 寛子, 白井 智量, 岡本 真美, 蓮沼 誠久, 近藤 昭彦, 平井 優美, 小山内 崇

  第68回日本生物工学会大会, 2016年09月, 日本語, 日本生物工学会, 富山市, 国内会議

  口頭発表（一般）


• 明暗周期下で効率的に油脂を生産するための海洋性緑藻培養技術の開発

  藤原 悠右, 加藤 悠一, 賀 詩欣, 蓮沼 誠久, 近藤 昭彦

  第68回日本生物工学会大会, 2016年09月, 日本語, 日本生物工学会, 富山市, 国内会議

  口頭発表（一般）


• 酵母表層への酵素立体的配置技術の開発

  黒野 浩幹, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第68回日本生物工学会大会, 2016年09月, 日本語, 日本生物工学会, 富山市, 国内会議

  口頭発表（一般）


• ラン藻スピルリナからの高生産エタノール変換プロセスの開発

  藍川 晋平, 猪熊 健太郎, 若井 暁, 佐々木 建吾, 蓮沼 誠久, 近藤 昭彦

  第68回日本生物工学会大会, 2016年09月, 日本語, 日本生物工学会, 富山市, 国内会議

  口頭発表（一般）


• バイオ医薬生産に向けたCHO細胞培養情報データ解析システムの構築

  許 漢修, 荒木 通啓, 蓮沼 誠久, 河野 愛子, 近藤 昭彦

  第68回日本生物工学会大会, 2016年09月, 日本語, 日本生物工学会, 富山市, 国内会議

  口頭発表（一般）


• バイオリファイナリーの構築に資する微生物細胞工場の創生

  蓮沼 誠久

  第118回触媒討論会, 2016年09月, 日本語, 岩手大学, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• N-アセチルグルコサミン資化性酵母Scheffersomyces stipitisの特性解析

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第68回日本生物工学会大会, 2016年09月, 日本語, 日本生物工学会, 富山市, 国内会議

  口頭発表（一般）


• Enhanced protein secretion by accumulation of novel effective factors in Pichia pastoris

  Yoichiro Ito, Yasuyuki Nakamura, Shimpei Aikawa, Tomohisa Hasunuma, Jun Ishii, Akihiko Kondo

  The 14th International Congress on Yeasts (ICY2016), 2016年09月, 英語, ICY14組織委員会, 淡路市, 国際会議

  ポスター発表


• Bio-based fuel and chemicalproduction based on dynamic metabolic profiling of cynobacteria and microalgae

  TOMOHISA Hasunuma

  The 4th Asia-Oceania Algae Innovation Summit (AOAIS2016), 2016年09月, 英語, East Lake International Conference Center, Wuhan, China, 国際会議

  口頭発表（一般）


• A new autonomous replicating plasmid vector containing centromere DNA sequence of Pichia pastoris

  Yasuyuki Nakamura, Teruyuki Nishi, Risa Noguchi, Yoichiro Ito, Toru Watanabe, Tozo Nishiyama, Shimpei Aikawa, Tomohisa Hasunuma, Jun Ishii, Yoshihiko Yasohara, Akihiko Kondo

  The 14th International Congress on Yeasts (ICY2016), 2016年09月, 英語, Awaji, Japan, 国際会議

  ポスター発表


• 海洋性ラン藻Synechococcus sp. PCC 7002を用いたアスタキサンチン生産技術の開発

  高木綾湖, 蓮沼誠久, 近藤 昭彦

  生物工学若手研究者の集い夏のセミナー2016, 2016年07月, 日本語, 生物工学会, 府中市, 国内会議

  ポスター発表


• Development of cell factories of microalgae and cyanobacteria based on metabolic analysis

  Tomohisa Hasunuma

  KMB2016 Annual meeting and international symposium, 2016年06月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• 代謝プロファイリング法の紹介と微生物育種技術への応用

  蓮沼 誠久

  環境バイオテクノロジー学会2016年度大会, 2016年06月, 日本語, サテライトキャンパスひろしま, 国内会議

  口頭発表（一般）


• Synthetic Promoter Systems for Controlling Saccharomyces Cerevisiae Gene Expression

  Robert Sidney Cox III, Yumiko Nambu, 蓮沼 誠久, 近藤 昭彦

  Metabolic Engineering 11, 2016年06月, 英語, Metabolic Engineering 11, 淡路市, 国際会議

  口頭発表（一般）


• Engineering of a Novel Cellulose-Adherent Cellulolytic Saccharomyces Cerevisiae for Cellulosic Biofuel Production

  Zhuo Liu, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  Metabolic Engineering 11, 2016年06月, 英語, Metabolic Engineering 11, 淡路市, 国際会議

  ポスター発表


• Disruption of PHO13 Improves Ethanol Production Via the Xylose Isomerase Pathway

  Takahiro Bamba, 蓮沼 誠久, 近藤 昭彦

  Metabolic Engineering 11, 2016年06月, 英語, Metabolic Engineering 11, 淡路市, 国際会議

  口頭発表（一般）


• Direct and High-Productive Conversion from a Cyanobacterium Arthrospira Platensis to Ethanol

  藍川 晋平, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  Metabolic Engineering 11, 2016年06月, 英語, Metabolic Engineering 11, 淡路市, 国際会議

  口頭発表（一般）


• Alternative Inverse Metabolic Engineering Based on Transient Acclimation of Yeast Improves Acid-Containing Xylose Fermentation and Tolerance to Formic and Acetic Acids

  蓮沼 誠久, 近藤 昭彦

  Metabolic Engineering 11, 2016年06月, 英語, Metabolic Engineering 11, 淡路市, 国際会議

  口頭発表（一般）


• 動的代謝プロファイリング技術の開発とバイオリファイナリーへの展開

  蓮沼 誠久

  第340回細胞工学研究会後援会／第220回遺伝子機能解析部門セミナー, 2016年03月, 日本語, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• AFM力計測を用いた細胞表層提示酵素の特異的検出とマッピング評価

  荻野 千秋, 竹中 武藏, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  化学工学会第81年会, 2016年03月, 日本語, 国内会議

  口頭発表（一般）


• AFM力学計測法を利用した細胞表層空間に提示した酵素検出

  竹中 武藏, 荻野 千秋, 近藤 昭彦, 猪熊 健太郎, 蓮沼 誠久, 小林 拓也

  日本化学会第96春季年回, 2016年03月, 日本語, 国内会議

  口頭発表（一般）


• Dynamic metabolic analysis of microorganisms for the development of bio-based chemical production

  Tomohisa Hasunuma

  the 7th International Symposium of Innovative BioProduction Kobe (iBioK), 2016年01月, 英語, 国際会議

  口頭発表（招待・特別）


• 藻類を利用したバイオエタノール、バイオベース化学品生産

  蓮沼 誠久

  平成27 年度新資源生物変換研究会 シンポジウム, 2016年01月, 日本語, バイオインダストリー協会, 国内会議

  口頭発表（一般）


• リグノセルロース系バイオマスの同時糖化発酵によるフェニル乳酸生産

  川口 秀夫, 寺村 浩, 中村 聡子, 荻野 千秋, 原 清敬, 蓮沼 誠久, 老沼 研一, 高谷 直樹, 平野 亘, 佐塚 隆志, 北野 英己, 近藤 昭彦

  第11回バイオマス科学会議, 2016年01月, 日本語, 国際会議

  口頭発表（一般）


• Live cell imaging and membrane protein mapping with atomic force microscope

  Musashi Takenaka, T. Kobayashi, Yusuke Miyachi, Kentarou Inokuma, Jun Ishii, Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  The 2015 International Chemical Congress of Pacific Basin Societies (Pacifichem 2015), 2015年12月, 英語, 国際会議

  口頭発表（一般）


• Dynamic metabolic profiling of the marine microalga Chlamydomonas sp. JSC4 and enhancing its oil production

  Hasunuma Tomohisa, Kondo Akihiko

  Pacifichem 2015, 2015年12月, 英語, 国際会議

  口頭発表（一般）


• Development of cell factories of microalgae and cyanobacteria based on metabolic analysis

  Tomohisa Hasunuma

  New Horizon in Biotechnology 2015, 2015年11月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• ラン藻Arthrospira platenisからの高収率エタノール生産プロセスの開発

  藍川 晋平, 猪熊 健太郎, 若井 暁, 佐々木 建吾, 蓮沼 誠久, 近藤 昭彦

  藍藻の分子生物学2015, 2015年11月, 日本語, 国内会議

  口頭発表（一般）


• 好機・低濃度グルコース条件下におけるSaccharomyces cerevisiaeの転写解析

  崎濱 由梨, 蓮沼 誠久, 近藤 昭彦

  第67回日本生物工学会大会 国際シンポジウム, 2015年10月, 日本語, 国内会議

  口頭発表（一般）


• キチン系基室からのバイオ燃料生産の検討

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第67回日本生物工学会大会 国際シンポジウム, 2015年10月, 日本語, 国内会議

  口頭発表（一般）


• Saccharomyces cerevisiae の糖代謝における転写制御ネットワークの予測

  南部 由美子, 崎濱 由梨, 荒木 道啓, 蓮沼 誠久, 近藤 昭彦

  第67回日本生物工学会大会 国際シンポジウム, 2015年10月, 日本語, 国内会議

  口頭発表（一般）


• Effect of PHO13 gene disruption on xylose productivity of yeast harboring xylose isomerase gene

  番場 崇弘, 蓮沼 誠久, 近藤 昭彦

  The 21th Symposium of Yong Asian Biochemical engineer's Communyty, 2015年10月, 英語, 国際会議

  口頭発表（一般）


• Development of microbial cell factories for biorefinery

  蓮沼 誠久, 近藤 昭彦

  第67回日本生物工学会大会 国際シンポジウム, 2015年10月, 英語, 国内会議

  口頭発表（一般）


• Conversion of high phospholipid-containing oils to biodiesel using immobilizes Aspergillus oryzae whole cell biocatalyst ezpressing Fusarium heteroporum lipase

  Jerom Amoah, shin-Hsin Ho, Hama Shinji, Yoshida Ayumi, Nakanishi Akihito, Hasunuma Tomohisa, Ogino Chiaki, Kondo Akihiko

  The 21th Symposium of Yong Asian Biochemical engineer's Communyty, 2015年10月, 英語, 国際会議

  口頭発表（一般）


• Combined cell-surface display-and secretion-based strategies for production of cellulosic ethanol with Saccharomyces cerevisiae

  Zuo Liu, Inokuma Kentaro, Hasunuma Tomohisa, Kondo Akihiko

  第67回日本生物工学会大会 国際シンポジウム, 2015年10月, 日本語, 国内会議

  口頭発表（一般）


• 藻類のエネルギー生産における物質代謝メカニズムの解析

  蓮沼 誠久

  日本植物学会第79回大会, 2015年09月, 日本語, 新潟コンベンションセンター, 国内会議

  口頭発表（一般）


• メタボロームのターンオーバー解析技術（代謝プロファイリング）の開発と物質生産への応用

  蓮沼 誠久

  iBioK第5回 合成生物工学シンポジウム, 2015年08月, 日本語, 国内会議

  [招待有り]

  シンポジウム・ワークショップパネル（指名）


• マルチオミクス解析に基づく合理的細胞育種技術の開発

  蓮沼 誠久

  HMTセミナー 物質生産におけるメタボロミクスのいま, 2015年07月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• Dynamic metabolic profiling of cyanobacteria for bio-based chemical production

  TOMOHISA Hasunuma

  11th Annual International Conference of the Metabolomics Society, 2015年06月, 英語, Hyatt Regency Burlingame, 国際会議

  口頭発表（一般）


• Biofuel Production from Microalgae and Cyanobacteria Based on Metabolic Profiling

  TOMOHISA Hasunuma

  KMB2015, 42nd Annual Meeting & International Symposium, 2015年06月, 英語, HICO, Gyeongju, Korea, 国際会議

  口頭発表（一般）


• Development of microbial cell factories based on metabolic engineering

  Tomohisa Hasunuma

  2015 KSBB Spring Meeting and International Symposium, 2015年04月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• 産業用酵母のゲノムシャッフリングによる高温及び酸耐性の付与と高効率キシロース発酵

  岩本 遼, 猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2015年度大会, 2015年03月, 日本語, 日本農芸化学会, 岡山市, 国内会議

  口頭発表（一般）


• アミラーゼ表層提示酵母によるシアノバクテリアArthrospira platensisからの高濃度エタノール生産

  藍川 晋平, 猪熊 健太郎, 佐々木 建吾, 蓮沼 誠久

  日本農芸化学会2015年度大会, 2015年03月, 日本語, 日本農芸化学会, 岡山市, 国内会議

  口頭発表（一般）


• 合成生物工学によるバイオ燃料生産に資する微生物の創製

  蓮沼 誠久

  広島大学バイオマスイブニングセミナー, 2014年12月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• 代謝システム解析に基づく細胞育種とバイオ医薬品生産への応用

  蓮沼 誠久

  第30回バイオロジカルズ（タンパク医薬）製造技術研究会セミナー, 2014年11月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• 代謝システム解析に基づく合理的細胞育種技術の開発

  蓮沼 誠久

  iBioK 第4回合成生物工学シンポジウム, 2014年11月, 日本語, 国内会議

  シンポジウム・ワークショップパネル（指名）


• 微細藻類の代謝系解析に基づく次世代バイオ燃料生産への挑戦

  蓮沼 誠久

  バイオマス研究会, 2014年11月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• The development of bioconversion process to bio-ethanol from cyanobacteria Spirulina biomass

  AIKAWA Shinpei, HASUNUMA Tomohisa, KONDO Akihiko

  5th International Symposium on Innovative Bioprocess in Tainan(i-BioT2014), 2014年11月, 英語, National Cheng Kung University, Tainan, China, 国際会議

  口頭発表（一般）


• Development of the novel yeast cell-surface display system for consolidated bioethanol production from biomass resources

  INOKUMA Kentaro, HASUNUMA Tomohisa, KONDO Akihiko

  5th International Symposium on Innovative Bioprocess in Tainan(i-BioT2014), 2014年11月, 英語, National Cheng Kung University, Tainan, China, 国際会議

  口頭発表（一般）


• Development of Dynamic Metabolic Profiling of Cyanobacteria and Microalgae

  HASUNUMA Tomohisa, KONDO Akihiko

  3rd Asia-Oceania Algae Innovation Summit 2014, 2014年11月, 英語, AOAIS2014, 済州、韓国, 国際会議

  口頭発表（一般）


• Development of dynamic metabolic profiling of cyanobacteria and microalgae

  HASUNUMA Tomohisa

  5th International Symposium on Innovative Bioprocess in Tainan(i-BioT2014), 2014年11月, 英語, National Cheng Kung University, Tainan, China, 国際会議

  口頭発表（一般）


• オミクス解析のバイオリファイナリー

  蓮沼 誠久

  アジレント・メタボロミクスデイズ2014, 2014年10月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• Biodiesel production in marine microalgae through metabolic profiling and an innovative salinity-gradient strategy

  Tomohisa Hasunuma

  Korean Marine Biology and Biotechnology International Symposium, 2014年10月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• 代謝系解析に基づくラン藻・微細藻からのバイオ燃料生産への挑戦

  蓮沼 誠久

  日本植物学会第78回大会, 2014年09月, 日本語, 日本植物学会, 川崎市, 国内会議

  口頭発表（一般）


• 代謝プロファイリングに基づく微生物育種技術の開発と応用

  蓮沼 誠久

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• 酵母によるタンパクの高効率細胞表層提示ならびに分泌生産のための新規分泌シグナル配列の検討

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• 海産性緑藻 Chlamydomonas sp. JSC4 の細胞組成評価と代謝解析に基づいた油脂高生産系の開発

  中西 昭仁, 賀 詩欣, 張 嘉修, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• 塩ストレス下での海洋性シアノバクテリアの代謝プロファイリング

  西田 篤実, 藍川 晋平, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• バイオ医薬開発に有用なCHO 細胞の改良、培養状態解明につながるデータの構築

  伊賀 朋世, 蓮沼 誠久, 荒木 通啓, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• バイオリファイナリーに向けた微生物の開発と代謝系解析の応用

  蓮沼 誠久

  日本植物学会第78回大会ランチョンセミナー, 2014年09月, 日本語, 島津製作所, 川崎市, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• バイオマス糖化液由来成分が大腸菌のフェニル乳酸発酵に与える影響

  川口 秀夫, 寺村 浩, 中村 聡子, 荻野 千秋, 原 清敬, 蓮沼 誠久, 老沼 研一, 高谷 直樹, 平野 恒, 佐塚 隆志, 北野 英己, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• コリネ菌におけるフルフラールの分解

  柘植 陽太, 堀 良美, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• キシロース資化性酵母における遺伝子発現プロファイルの経時変化解析

  南部 由美子, 崎濱 由梨, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• アミラーゼ表層提示酵母によるラン藻スピルリナからの高濃度エタノール生産

  藍川 晋平, 猪熊 健太郎, 佐々木 建吾, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• PHO13 遺伝子の欠損がキシロースイソメラーゼ導入酵母のエタノール生産へ与える影響

  番場 崇弘, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• luyveromyces marxianus の好気条件での糖代謝系の解析

  崎濱 由梨, 蓮沼 誠久, 近藤 昭彦

  第66回日本生物工学会大会, 2014年09月, 日本語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• Effect of illumination coupled with nitrogen depletion on biodiesel production of a marine microalga Chlamydomonas sp. JSC4

  HO Shih-Hsin, NAKANISHI Akihito, YE Xiaoting, CHANG Jo-Shu, HARA Kiyotaka, KONDO Akihiko, HASUNUMA Tomohisa

  第66回日本生物工学会大会, 2014年09月, 英語, 日本生物工学会, 札幌市, 国内会議

  ポスター発表


• 色素生産を指標としたCoA代謝経路の評価系

  磯貝 章太, 石井 純, 蓮沼 誠久, 近藤 昭彦

  生物工学若手研究者の集い夏のセミナー, 2014年07月, 日本語, 生物工学会, 神戸市, 国内会議

  ポスター発表


• キシロースイソメラーゼ導入酵母におけるPHO13遺伝子欠損がエタノール生産へ与える影響

  番場 崇弘, 蓮沼 誠久, 近藤 昭彦

  生物工学若手研究者の集い夏のセミナー, 2014年07月, 日本語, 生物工学会, 神戸市, 国内会議

  ポスター発表


• Dynamic Metabolic Profiling of Cyanobacteria Under Conditions of Nitrate Depletion

  HASUNUMA Tomohisa

  Metabolic Engineering X, 2014年06月, 英語, Society for Biological Engineering, Vancouver, Canada, 国際会議

  口頭発表（一般）


• 発酵生産プロセスのための海洋性ラン藻の利用

  藍川 晋平, 西田 篤実, 蓮沼 誠久, 近藤 昭彦

  第16回マリンバイオテクノロジー学会大会, 2014年05月, 日本語, マリンバイオテクノロジー学会, 津市, 国内会議

  ポスター発表


• 微細藻類によるバイオ燃料や化学物質製造

  近藤 昭彦, 蓮沼 誠久

  日本化学会第94春季年会, 2014年03月, 日本語, 日本化学会, 名古屋市, 国内会議

  口頭発表（一般）


• 統合型リグノセルロース系エタノール生産プロセスに資するセルラーゼ表層提示酵母の開発

  猪熊 健太郎, 番場 崇弘, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2014年度大会, 2014年03月, 日本語, 日本農芸化学会, 川崎市, 国内会議

  口頭発表（一般）


• 代謝工学的手法によるグリコーゲン高生産藍藻の創製

  曽根辻 諒彦, 藍川 晋平, 蓮沼 誠久, 近藤 昭彦

  第16回化学工学会学生発表会(堺大会), 2014年03月, 日本語, 化学工学会, 大阪市, 国内会議

  口頭発表（一般）


• Development of lipid productive engineering with Chlamydomonas sp. Under marine condition

  HASUNUMA Tomohisa

  Asian Congress on Biotechnology - ACB 2013, 2013年12月, 英語, Asian Federation of Biotechnolgy, New Delhi, India, 国際会議

  ポスター発表


• ラン藻動的代謝プロファイリング技術の開発と応用

  蓮沼 誠久

  ラン藻の分子生物学2013, 2013年11月, 日本語, かずさDNA研究所, 木更津市, 国内会議

  口頭発表（一般）


• Development of microalgal cell factories based on sysmtems biology approach

  Tomohisa Hasunuma

  1st Korea-Japan Microalgae Symposium, 2013年10月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• Biofuel production from halophilic algae

  Tomohisa Hasunuma

  i-BioB 2013, 2013年10月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• in vivo 13C標識法によるラン藻動的代謝プロファイリング

  蓮沼 誠久

  第28回つくば藻類・プロティストフォーラム, 2013年10月, 日本語, 国内会議

  [招待有り]

  シンポジウム・ワークショップパネル（指名）


• 新たな挑戦:イノベーティブ・バイオプロダクション

  蓮沼 誠久, 近藤 昭彦

  INCHEM TOKYO 2013 産学官マッチングフォーラム, 2013年10月, 日本語, 国内会議

  [招待有り]

  シンポジウム・ワークショップパネル（指名）


• 緑藻Chlamydomonas orbicularisを用いた海水塩存在下での油脂高生産条件の開発

  中西 昭仁, 賀 詩欣, 藍川 晋, 張 嘉修, 近藤 昭彦, 蓮沼 誠久

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• 統合型リグノセルロース系エタノール生産プロセスに資する新規酵母細胞表層提示システムの開発

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• 統合バイオプロセスによる環境調和型セルロース系エタノール生産に資する前処理技術の開発

  崎濱 由梨, 俣野 結城, 蓮沼 誠久, 近藤 昭彦

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• 海洋性シアノバクテリアによるバイオリファイナリーのためのグリコーゲン生産

  西田 篤実, 藍川 晋平, 蓮沼 誠久, 近藤 昭彦

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• 海水中のイオン濃度が糖質源Spirulinaの増殖;光合成に与える影響

  藍川 晋平, 秋元 誠志, 蓮沼 誠久, 近藤 昭彦

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• 稲わら希硫酸処理液のナノフィルトレーションによる糖濃縮

  佐々木 建吾, 蓮沼 誠久, 荻野 千秋, 近藤 昭彦

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• キシロース資化性Saccharomyces cerevisiaeにおける代謝プログラム制御によるギ酸;酢酸耐性関連遺伝子の同定

  阪本 貴俊, 堀 良美, 蓮沼 誠久, 近藤 昭彦

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• キシロース資化性Saccharomyces cerevisiaeにおけるリン酸シグナル伝達系の制御によるキシロースからのエタノール生産の高効率化

  蓮沼 誠久, 近藤 昭彦

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• Phototrophic cultivation of a marine microalga Chlamydomonas orbicularis CO2 fixation and biodiesel production:Effect of medium composition, nitrogen deplection, and sea salt concentration

  HO Shih-Hsin, NAKANISHI Akihito, AIKAWA Shimpei, CHANG Jo-Shu, KONDO Akihiko, HASUNUMA Tomohisa

  第65回日本生物工学会大会, 2013年09月, 日本語, 日本生物工学会, 広島市, 国内会議

  ポスター発表


• メタボローム解析による次世代バイオ燃料生産のための微細藻代謝改変戦略の導出

  蓮沼 誠久

  微細藻類研究会2013, 2013年06月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• Direct conversion of cyanobacteria to ethanol without pretreatment or enzymatic hydrolysis process

  AIKAWA S, YAMADA R, YAMGISHI T, CHNG J.S, HASUNUMA Tomohisa, KONDO Akihiko

  The 3rd International Conference on Algal Biomass、Biofuels and Bioproducts, 2013年06月, 英語, Elsevier, Toronto, Canada, 国際会議

  ポスター発表


• シアノバクテリアからの直接バイオエタノール変換技術の開発

  藍川 晋平, 山田 亮祐, 和泉 自泰, 山岸 隆博, 松田 史生, 川井 浩史, Jo-shu Chang, 蓮沼 誠久, 近藤 昭彦

  第４回日本光合成学会年会, 2013年05月, 日本語, 日本光合成学会, 名古屋市, 国内会議

  ポスター発表


• Development of Microbial Cell Factories for Bio-refinery

  KONDO Akihiko, HASUNUMA Tomohisa

  Internatinal meeting of the Microbiorogical Society of Korea, 2013年05月, 英語, Microbiorogical Society of Korea, Jeonju, Korea, 国際会議

  口頭発表（一般）


• 微細藻バイオリファイナリーに資する動的代謝プロファイリング解析

  蓮沼 誠久

  日本農芸化学会2013年度大会, 2013年03月, 日本語, 日本農芸化学会, 仙台市, 国内会議

  口頭発表（一般）


• 発酵阻害物存在下におけるキシロースからのエタノール発酵向上酵母の構築

  崎濱 由梨, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2013年度大会, 2013年03月, 日本語, 日本農芸化学会, 仙台市, 国内会議

  口頭発表（一般）


• 耐塩性シアノバクテリアArthrospira platensisからの効率の良いグリコーゲン回収法の構築

  中西 昭仁, 藍川 晋平, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2013年度大会, 2013年03月, 日本語, 日本農芸化学会, 仙台市, 国内会議

  口頭発表（一般）


• 神戸大学におけるバイオリファイナリーの進展

  蓮沼 誠久, 近藤 昭彦

  化学工学会第78年会, 2013年03月, 日本語, 化学工学会, 豊中市, 国内会議

  口頭発表（一般）


• リグノセルロース系バイオマスからの統合型バイオエタノール生産に資する新規酵母細胞表層提示システムの開発

  猪熊 健太郎, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2013年度大会, 2013年03月, 日本語, 日本農芸化学会, 仙台市, 国内会議

  口頭発表（一般）


• Biorefinery from microalgae through fermentation and metabolic engineering

  Tomohisa Hasunuma

  SBJ 64th Annual Meeting, 2012年10月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• リパーゼ分泌挙動の異なる糸状菌Rhizopus oryzae のメタボローム解析

  吉田 あゆみ, 濵 真司, 蓮沼 誠久, 山本 博之, 近藤 昭彦

  第64回日本生物工学会大会, 2012年10月, 日本語, 日本生物工学会, 神戸市, 国内会議

  口頭発表（一般）


• イオン液体前処理とキシロース資化性酵母株を用いたバイオマス糖化発酵プロセスの効率化

  小倉 一真, 仲島 菜々実, 山田 亮祐, 蓮沼 誠久, 神谷 典穂, 石田 亘広, 齋藤 聡志, 荻野 千秋

  第64回日本生物工学会大会, 2012年10月, 日本語, 日本生物工学会, 神戸市, 国内会議

  口頭発表（一般）


• Development of sustainable biorefinery based on microalgae

  HASUNUMA Tomohisa

  5th International Conference on Industrial Bioprocesses (IFIB-2012), 2012年10月, 英語, National Taiwan University of Science and Technology, Taiwan, China, 国際会議

  口頭発表（一般）


• Flux balance analysis of xylose-fermenting Saccharomyces cerevisiae strain

  KATO Hiroko, NAGATA Kento, HASUNUMA Tomohisa, MATSUDA Fumio, KONDO Akihiko

  The 15th International Biotechnology Symposium (IBS 2012), 2012年09月, 英語, The Korean Society for Biotechnology and Bioengineering, Deague, Korea, 国際会議

  口頭発表（一般）


• Cell recycle batch fermentation of high‐solid lignocellulose using a recombinant cellulase‐displaying yeast strain for high yield ethanol production

  HASUNUMA Tomohisa, KONDO Akihiko

  The 13th International Congress on Yeasts, 2012年08月, 英語, ICY 2012 Organizing Committee, Madison, USA, 国際会議

  口頭発表（一般）


• バイオリファイナリー構築に資する微生物細胞工場の創製

  蓮沼 誠久

  アジレント・メタボロミクスセミナー2012, 2012年07月, 日本語, アジレント・テクノロジー㈱, 豊中市, 国内会議

  口頭発表（一般）


• Control of phosphate metabolism in a xylose-fermenting yeast strain improves ethanol production from xylose

  HASUNUMA Tomohisa

  Metabolic EngineeringⅨ, 2012年06月, 英語, Engineering Conferences International, Biarritz, France, 国際会議

  口頭発表（一般）


• Microbial engineering for production of biofuels and biorefinery products

  Tomohisa Hasunuma

  4th A-IMBN Annual Conference, 2012年03月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• シアノバクテリアArthrospira platensisを炭素源としたアミラーゼ発現酵母による直接エタノール生産

  藍川 晋平, 和泉 自泰, 山田 亮祐, 松田 史生, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2012年度大会, 2012年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• Metabolic pathway engineering in cyanobacteria Synechocystis sp.PCC 6803 for the production of lactate

  JOSEPH Ancy, AIKAWA Shimpei, HASUNUMA Tomohisa, MATSUDA Fumio, KONDO Akihiko

  日本農芸化学会2012年度大会, 2012年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• イオン液体共存下における酵母のキシロース発酵能評価

  小倉 一真, 仲島 菜々実, 山田 亮祐, 蓮沼 誠久, 荻野 千秋, 近藤 昭彦

  第2回イオン液体討論会, 2011年12月, 日本語, イオン液体研究会, 京都市, 国内会議

  口頭発表（一般）


• Production of bio-ethanol from microalgae through cell surface engineering

  Tomohisa Hasunuma, Akihiko Kondo

  5th International Algae Congress 2011, 2011年12月, 英語, DLG BENELUX, Berlin, Germany, 国際会議

  口頭発表（一般）


• 補助食品・スピルリナのメタボローム解析

  蓮沼 誠久

  LECOジャパン・食品分析セミナー, 2011年11月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• CE-TOFMSを用いたバイオエタノール生産酵母の代謝プロファイリング

  蓮沼 誠久

  第31回キャピラリー電気泳動シンポジウム, 2011年11月, 日本語, 日本分析化学会電気泳動分析研究懇談会, 山形県鶴岡市, 国内会議

  口頭発表（一般）


• 発酵阻害物耐性遺伝子を導入したキシロース資化性二倍体酵母によるリグノセルロース水熱分解液の繰返し発酵

  蓮沼 誠久, 近藤 昭彦

  第63回日本生物工学会大会, 2011年09月, 日本語, 日本生物工学会, 小金井市, 国内会議

  口頭発表（一般）


• 細胞内酸化還元バランス調整能を付与したキシロース資化性酵母の取得

  須賀 裕之, 蓮沼 誠久, 松田 史生, 近藤 昭彦

  第63回日本生物工学会大会, 2011年09月, 日本語, 日本生物工学会, 小金井市, 国内会議

  口頭発表（一般）


• 回転式発酵槽を用いた稲わら水熱処理物からのエタノール生産の効率化

  俣野 結城, 蓮沼 誠久, 近藤 昭彦

  第63回日本生物工学会大会, 2011年09月, 日本語, 日本生物工学会, 小金井市, 国内会議

  口頭発表（一般）


• ユーグレナによるバイオ燃料生産のための高密度CO2 固定サイクルの構築

  林 雅弘, 松田 史生, 蓮沼 誠久, 近藤 昭彦

  第63回日本生物工学会大会, 2011年09月, 日本語, 日本生物工学会, 小金井市, 国内会議

  口頭発表（一般）


• メタボロミクスによるリン酸代謝関連遺伝子欠損酵母の発酵特性の解析

  藤冨 桂介, 蓮沼 誠久, 近藤 昭彦

  第3回 神戸大学バイオサイエンス研究会・若手研究者交流会, 2011年09月, 日本語, 神戸大学バイオサイエンス研究会・若手研究者交流会, 神戸市, 国内会議

  ポスター発表


• フラン化合物存在下でのXR-XDH 発現酵母を用いたキシロース発酵におけるNADH 依存性Adh1過剰発現のインパクト

  石井 純, 吉村 一也, 蓮沼 誠久, 近藤 昭彦

  第63回日本生物工学会大会, 2011年09月, 日本語, 日本生物工学会, 小金井市, 国内会議

  口頭発表（一般）


• キシロース資化性酵母Saccharomyces cerevisiae におけるPHO13 遺伝子欠損がエタノール生産に与える影響及び発酵阻害物耐性の評価

  藤冨 桂介, 蓮沼 誠久, 近藤 昭彦

  第63回日本生物工学会大会, 2011年09月, 日本語, 日本生物工学会, 小金井市, 国内会議

  口頭発表（一般）


• シンセティックバイオエンジニアリングによるバイオエタノール生産酵母の育種

  蓮沼 誠久

  第99回 醗酵学懇話会, 2011年08月, 日本語, 日本生物工学会 関西支部, 神戸市, 国内会議

  口頭発表（招待・特別）


• Repeated batch-fermentation of rice straw hydrolysate to ethanol using metabolically engineered Saccharomyces cerevisiae strains

  HASUNUMA Tomohisa, KONDO Akihiko

  SIM2011 Annual Meeting and Exhibition, 2011年07月, 英語, Society for Industrial Microbiology, New Orleans, USA, 国際会議

  口頭発表（一般）


• Development of microbial cell factories for biofuel production from biomass by conslidated bioprocessing

  KONDO Akihiko, HASUNUMA Tomohisa

  SIM2011 Annual Meeting and Exhibition, 2011年07月, 英語, Society for Industrial Microbiology, New Orleans, USA, 国際会議

  口頭発表（一般）


• 合成生物工学によるバイオ燃料生産のための微生物細胞工場の創製

  蓮沼 誠久

  バイオマスの今、そして未来, 2011年06月, 日本語, 国内会議

  [招待有り]

  公開講演，セミナー，チュートリアル，講習，講義等


• Development of Microbial Cell Factories for Biofuel Production from Biomass

  Tomohisa Hasunuma, Chiaki Ogino, Akihiko Kondo

  2011 International Conference for Bioeconomy, 2011年06月, 英語, Tianjin Institute of Scientific and Technical Information, Tianjin、China, 国際会議

  口頭発表（一般）


• Cellulosic ethanol Production in Saccharomyces cerevisiae through Metabolic Engineering Based on Metabolomic Approach

  HASUNUMA Tomohisa

  Asian Congress on Biotechnology 2011, 2011年05月, 英語, ACB-2011Organizing Committee, Shanghai, China, 国際会議

  口頭発表（一般）


• セルラーゼ表層提示株を用いた稲わら水熱処理物からの エタノール生産プロセスの効率化

  俣野 結城, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2011年度大会, 2011年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• セルラーゼを表層提示した高温耐性酵母Kluyveromyces marxianusを用いたセルロースからのエタノール生産

  蓮沼 誠久, 柳瀬 修平, 山田 亮祐, 近藤 昭彦

  日本農芸化学会2011年度大会, 2011年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• キシロース発酵形質転換酵母における代謝コントロールの解析

  松田 史生, 加藤 寛子, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2011年度大会, 2011年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• PHO13欠損株を用いたキシロースからのエタノール生産

  藤冨 桂介, 三田 智也, 蓮沼 誠久, 松田 史生, 近藤 昭彦

  日本農芸化学会2011年度大会, 2011年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• PHO13欠損株を用いたキシロースからのエタノール生産

  藤冨 桂介, 三田 智也, 蓮沼 誠久, 近藤 昭彦

  化学工学会第15回学生発表会, 2011年03月, 日本語, (社)化学工学会, 神戸市, 国内会議

  口頭発表（一般）


• Production of bio-ethanol from lignocellulosic materials through the engineering of yeast cell surface and metabolic pathway

  Tomohisa Hasunuma

  4th Japan-Korea Biomass Symposium, 2010年11月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• 有用希少イノシトールのバイオアベイラビリティーとバイオコンバージョン生産

  吉田 健一, 蓮沼 誠久

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  口頭発表（一般）


• 微細藻を利用したバイオ燃料生産システムの構築へ向けて

  近藤 昭彦, 蓮沼 誠久

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  口頭発表（一般）


• 発酵阻害物存在下におけるキシロースからの効率的なエタノール生産

  三田 智也, 山田 亮祐, 蓮沼 誠久, 近藤 昭彦

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  ポスター発表


• 海洋性微細藻のシステムバイオロジー解析に向けての網羅的代謝プロファイリング技術の開発

  和泉 自泰, 藍川 晋平, 松田 史生, 蓮沼 誠久, 近藤 昭彦

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  ポスター発表


• ワイン酵母OC-2 トリプルマーカー株をプラットフォームとした高β – グルコシダーゼ活性と高キシロシダーゼ活性を持つキシロース発酵酵母の作製

  齋藤 聡志, 田中 勉, 蓮沼 誠久, 近藤 昭彦

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  ポスター発表


• ラン藻Spirulina (Arthrospira) platensis のグリコーゲン蓄積量と増殖速度に対する光強度の影響

  藍川 晋平, 和泉 自泰, 松田 史生, 蓮沼 誠久, 近藤 昭彦

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  ポスター発表


• キシロース資化性形質転換酵母の代謝解析

  松田 史生, 加藤 寛子, 蓮沼 誠久, 近藤 昭彦

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  ポスター発表


• キシロース資化性Saccharomyces cerevisiae におけるアルコールデヒドロゲナーゼ過剰発現およびフラン化合物存在下でのキシロース発酵特性

  吉村 一也, 石井 純, 蓮沼 誠久, 近藤 昭彦

  第62回日本生物工学会大会, 2010年10月, 日本語, (社)日本生物工学会, 宮崎市, 国内会議

  ポスター発表


• メタボロームを利用した新規バイオエタノール生産酵母の育種

  蓮沼 誠久

  第5回メタボロームシンポジウム, 2010年09月, 日本語, メタボロームシンポジウム実行委員会, 山形県鶴岡市, 国内会議

  口頭発表（一般）


• Production of bio-ethanol from lignocellulosic materials through engineering yeast cell surface and metabolic pathway

  KONDO Akihiko, MATSUDA Fumio, HASUNUMA Tomohisa

  SIM 2010 Annual Meeting, 2010年08月, 英語, Society for Industrial Microbiology, San Francisco, USA, 国際会議

  口頭発表（一般）


• Ethanol production from cellulosic material using the thermotolerant yeast displaying cellulolytic enzymes on the cell surface

  HASUNUMA Tomohisa, YANASE, S, YAMADA Ryosuke, KONDO Akihiko

  SIM 2010 Annual Meeting, 2010年08月, 英語, Society for Industrial Microbiology, San Francisco, USA, 国際会議

  口頭発表（一般）


• Development of bioethanol production from marine microalgae

  HASUNUMA Tomohisa

  The 1st International Symposium on the Nitrogen Nutrition of Plants, 2010年07月, 英語, Nitrogen 2010 Organizing Committee, 犬山市, 国際会議

  ポスター発表


• Development of bioethanol production from marine microalgae

  HASUNUMA Tomohisa, AIKAWA, S, IZUMI, Y, MATSUDA Fumio, KONDO Akihiko

  2010 International Symposium on Advanced Biological Engineering, 2010年07月, 英語, Biotechnology for Sustainable Industry and Society, Beijing, China, 国際会議

  口頭発表（一般）


• Ammonium assimilation in rice leaves: functions of the chloroplastic andcytosolic phosphoenolpyruvate carboxylases (PEPCs) in supplying carbonskeletons

  MIYAZAWA, S, MASUMOTO, C, HASUNUMA Tomohisa, MIYIAO, M

  The 1st International Symposium on the Nitrogen Nutrition of Plants, 2010年07月, 英語, Nitrogen 2010 Organizing Committee, 犬山市, 国際会議

  ポスター発表


• Metabolomic approach to identify molecules that are important for acetic acid tolerance in a recombinant xylose-fermenting yeast strain

  HASUNUMA Tomohisa

  Metabolic Engineering VIII: Metabolic Engineering for Green Growth, 2010年06月, 英語, Engineering Conferences International, Jeju、Korea, 国際会議

  口頭発表（一般）


• Efficient Production of Cellulosic Ethanol in Saccharomyces cerevisiae through Metabolic Engineering Based on a Metabolomic Approach

  HASUNUMA Tomohisa

  Microbes at Work JSPS-SLU colloquium, 2010年06月, 英語, JSPS-SLU, Uppsala, Sweden, 国際会議

  口頭発表（一般）


• Construction of consolidated bioprocesses for production of bio-fuels and chemicals by using cell surface engineered microbial cells

  KONDO Akihiko, HASUNUMA Tomohisa, OGINO Chiaki, TANAKA Tsutomu

  RENEWABLE ENERGY 2010, 2010年06月, 英語, International Solar Energy Society, 横浜市, 国際会議

  口頭発表（一般）


• 酢酸耐性酵母によるキシロースからの効率的バイオエタノール生産

  三田 智也, 山田 亮祐, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2010年度大会, 2010年03月, 日本語, (社)日本農芸化学会, 東京都目黒区, 国内会議

  口頭発表（一般）


• 細胞表層工学技術を用いたヘミセルロース系バイオマスからのエタノール生産

  阪本 貴俊, 蓮沼 誠久, 堀 良美, 山田 亮祐, 荻野 千秋, 近藤 昭彦

  日本農芸化学会2010年度大会, 2010年03月, 日本語, (社)日本農芸化学会, 東京都目黒区, 国内会議

  口頭発表（一般）


• バイオマスからの燃料・化学品生産を目指した細胞工場の創製

  近藤 昭彦, 荻野 千秋, 蓮沼 誠久, 田中 勉

  日本農芸化学会2010年度大会, 2010年03月, 日本語, (社)日本農芸化学会, 東京都目黒区, 国内会議

  口頭発表（一般）


• キシロース資化性遺伝子組換え酵母の代謝フラックス解析

  松田 史生, 三田 智也, 蓮沼 誠久, 近藤 昭彦

  日本農芸化学会2010年度大会, 2010年03月, 日本語, (社)日本農芸化学会, 東京都目黒区, 国内会議

  口頭発表（一般）


• D-アラビノースは酵母のエリスロアスコルビン酸の内在前駆体か

  尼子 克己, 森村 健一, 蓮沼 誠久, 近藤 昭彦, 合田 清

  日本農芸化学会2010年度大会, 2010年03月, 日本語, (社)日本農芸化学会, 東京都目黒区, 国内会議

  口頭発表（一般）


• A synthetic biology approach for efficient production of cellulosic ethanol in Saccharomyces cerevisiae

  Tomohisa Hasunuma

  The 2nd International Symposium of Innovative BioProduction Kobe, 2010年01月, 英語, 国際会議

  口頭発表（招待・特別）


• Effective biofuel production process from biomass reseources by whole-cell biocatalyst

  Tomohisa Hasunuma

  Airbus meeting, 2009年11月, 英語, 国際会議

  [招待有り]

  口頭発表（招待・特別）


• アーミング酵母を用いた統合プロセスによるバイオエタノール生産

  蓮沼 誠久

  日本化学会関東支部講演会 「バイオマス変換最前線」, 2009年11月, 日本語, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• Dynamic metabolic profiling in plant leaves using in vivo stable isotope labeling

  蓮沼 誠久, 近藤 昭彦, 福崎 英一郎

  APBioChEC'09, 2009年11月, 英語, APBioChEC'09 Committee, 神戸市, 国際会議

  口頭発表（一般）


• Bioethaol fermentation from mixed sugar by the recombinant yeast with xyloseisomerase pathway

  TANINO Takanori, HOTTA Atsushi, ITO Tomonori, ISHII Jun, YAMADA Ryousuke, HASUNUMA Tomohisa, OGINO Chiaki, OHMURA Naoto

  APBioChEC'09, 2009年11月, 英語, APBioChEC'09 Committee, 神戸市, 国際会議

  ポスター発表


• Bioethanol production from mixed sugars using sugar uptake ability enhanced yeast strain by overexpression of transporters

  堀田 淳史, 谷野 孝徳, 伊藤 友数, 蓮沼 誠久, 荻野 千秋, 近藤 昭彦, 大村 直人

  APBioChEC'09, 2009年11月, 英語, APBioChEC'09 Committee, 神戸市, 国際会議

  ポスター発表


• バイオエタノール生産を目指したスーパー酵母の創製

  近藤 昭彦, 蓮沼 誠久, 田中 勉, 荻野 千秋

  農芸化学会2009年度大会, 2009年03月, 日本語, 日本農芸化学会, 福岡県福岡市, 国内会議

  口頭発表（一般）


• キシロースからの効率的なエタノール生産を行う酵母の創製

  加藤 寛子, 山田 亮祐, 蓮沼 誠久, 福田 秀樹, 近藤 昭彦

  化学工学会第74年会, 2009年03月, 日本語, 化学工学会, 横浜市, 国内会議

  口頭発表（一般）


• C3 photosynthetic pathway analysis by combination of in vivo 13C-labeling and metabolic profiling

  蓮沼 誠久

  NAISTグローバルCOE公開ワークショップ「光合成の環境応答」, 2009年03月, 日本語, 日本分子生物学会・日本生化学会, 奈良県生駒市, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• 13CO2を用いた同位体標識による葉内代謝物質のターンオーバー解析

  蓮沼 誠久, 原田 和生, 三宅 親弘, 福崎 英一郎

  日本分子生物学会年会・日本生化学会大会 合同大会, 2008年12月, 日本語, 日本分子生物学会・日本生化学会, 神戸市, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• in vivo安定同位体濃縮による葉内炭素代謝ターンオーバー解析

  蓮沼 誠久

  メタボロームシンポジウム, 2008年10月, 日本語, 慶應義塾大学先端生命科学研究所, 山形県鶴岡市, 国内会議

  ポスター発表


• in vivo 13Cエンリッチメントによる葉内炭素代謝解析システムの構築

  蓮沼 誠久

  関西光合成研究会シンポジウム, 2008年09月, 日本語, 関西光合成研究会, 神戸市, 国内会議

  [招待有り]

  口頭発表（招待・特別）


• Development of analytical system to monitor metabolic turnoverin plant leaves using in vivo isotope dilution from 13CO2

  大山 陽子, 蓮沼 誠久, 原田 和生, 三宅 親弘, 小林 昭雄, 福崎 英一郎

  5th International conference on plant metabolomics, 2008年07月, 英語, RIKEN Plant Science Center, 横浜市, 国内会議

  ポスター発表


• 葉緑体形質転換技術を用いたアスタキサンチン生産

  蓮沼 誠久, 宮澤 真一, 吉村 智美, 新崎 由紀, 富澤 健一, 三沢 典彦, 三宅 親弘

  日本農芸化学会大会, 2008年03月, 日本語, 日本農芸化学会, 名古屋市, 国内会議

  口頭発表（一般）


• CE/MSを用いた一次代謝物の安定同位体標識率モニタリング法の開発

  原田 和生, 大山 陽子, 蓮沼 誠久, 宮澤 真一, 三宅 親弘, 小林 昭雄, 福崎 英一郎

  日本農芸化学会大会, 2008年03月, 日本語, 日本生物工学会, 名古屋市, 国内会議

  口頭発表（一般）


• 13CO2エンリッチメントによる代謝ターンオーバー解析

  蓮沼 誠久, 福崎 英一郎, 岡澤 敦司, 梶山 慎一郎, 小林 昭雄

  日本植物生理学会年会, 2008年03月, 日本語, 日本植物生理学会, 札幌市, 国内会議

  口頭発表（一般）


• 主要カロテノイドとしてアスタキサンチンを生産する葉緑体形質転換植物の作出

  蓮沼 誠久, 吉村 智美, 宮澤 真一, 三沢 典彦, 三宅 親弘

  カロテノイド研究談話会, 2007年09月, 日本語, 日本カロテノイド研究会, 大阪市, 国内会議

  口頭発表（一般）


• 葉緑体形質転換技術を用いたカロテノイド代謝改変植物の作出

  蓮沼 誠久, 川崎 智美, 山本 宏, 三宅 親弘, 福崎 英一郎, 富澤 健一

  カロテノイド研究談話会, 2006年09月, 日本語, 日本カロテノイド研究会, 沖縄県, 国内会議

  口頭発表（一般）


• ラン藻Synechosystis sp.由来デオキシキシルロースリン酸レダクトイソメラーゼを導入した葉緑体形質転換タバコの作出

  蓮沼 誠久, 川崎 智美, 山本 宏, 高瀬 尚文, 武野 真也, 馬場 健史, 福崎 英一郎, 小林 昭雄, 富澤 健一

  日本農芸化学会大会, 2005年03月, 日本語, 日本農芸化学会, 京都市, 国内会議

  口頭発表（一般）


• 安定同位体希釈法による定量メタボローム解析法の開発(2)-15N標識による含窒素化合物群の相対定量法-

  福崎 英一郎, 金 戴光, 蓮沼 誠久, 原田 和生, 小林 昭雄

  日本農芸化学会大会, 2004年03月, 日本語, 日本農芸化学会, 広島市, 国内会議

  口頭発表（一般）


• Aspergillus niger由来ペクチンメチルエステラーゼの植物内過剰発現によるメタノール増産と植物矮化

  蓮沼 誠久, 福崎 英一郎, 岡澤 敦司, 梶山 慎一郎, 小林 昭雄

  日本生物工学会大会, 2003年09月, 日本語, 日本生物工学会, 熊本市, 国内会議

  口頭発表（一般）


• アルコールオキシダーゼ・ペルオキシダーゼ二酵素型バイオセンサーを用いたメタノール定量測定

  蓮沼 誠久, 福崎 英一郎, 岡澤 敦司, 梶山 慎一郎, 桑畑 進, 小林 昭雄

  日本農芸化学会大会, 2003年03月, 日本語, 日本農芸化学会, 神奈川県藤沢市, 国内会議

  口頭発表（一般）


• Aspergillus niger由来ペクチンメチルエステラーゼの植物内過剰発現によるメタノール産生

  蓮沼 誠久, 福崎 英一郎, 岡澤 敦司, 梶山 慎一郎, 小林 昭雄

  日本農芸化学会大会, 2002年03月, 日本語, 日本農芸化学会, 仙台市, 国内会議

  口頭発表（一般）


• チューブリン分子に特異的に結合するDNAアプタマー

  蓮沼 誠久, 福崎 英一郎, 岡澤 敦司, 梶山 慎一郎, 小林 昭雄

  日本生物工学会大会, 2000年08月, 日本語, 日本生物工学会, 札幌市, 国内会議

  口頭発表（一般）

• 大腸菌による芳香族化合物発酵の飛躍的効率化につながるバイオマス由来発酵阻害の克服

  川口 秀夫

  学術研究助成基金助成金／基盤研究(C), 2016年04月 - 2021年03月

  競争的資金


• 海洋性ラン藻における人工転写調節システムの開発とイソプレノイド生産への応用

  蓮沼 誠久

  科学研究費補助金／若手研究(A), 2015年04月 - 2018年03月, 研究代表者

  競争的資金


• 微細藻類からのカロテノイド色素の生産技術開発

  蓮沼 誠久

  国立研究開発法人科学技術振興機構, 研究成果展開事業 研究成果最適展開支援プログラム(A-STEP）シーズ育成タイプ, 2017年, 研究代表者

  競争的資金


• 【NEDO：三菱ケミカル】共同研究員受入

  近藤 昭彦

  三菱ケミカル株式会社, NEDO委託プロジェクト「植物等の生物を用いた高機能品生産技術の開発」, 2017年

  競争的資金


• 【JAXA地上】微小重力環境における藻類による物質循環サイクルの実現可能性検証

  蓮沼 誠久

  一般財団法人日本宇宙フォーラム, 「きぼう」利用フィジビリティスタディテーマ募集, 2017年, 研究代表者

  競争的資金


• 【JAXA装置】微小重力環境における藻類による物質循環サイクルの実現可能性検証

  蓮沼 誠久

  一般財団法人日本宇宙フォーラム, 「きぼう」利用フィジビリティスタディテーマ募集, 2017年, 研究代表者

  競争的資金


• 【ImPACT】動的代謝解析による海洋性緑藻の油脂生合成発動メカニズムの解明と油脂高生産技術開発への応用

  蓮沼 誠久

  国立研究開発法人科学技術振興機構, 革新的研究開発推進プログラム（ImPACT）, 2017年, 研究代表者

  競争的資金


• 【AMED】アセンブラーとしての癌/非癌幹細胞の機能解明とその制御技術の開発

  青井 貴之

  国立研究開発法人日本医療研究開発機構, 再生医療実現拠点ネットワークプログラム幹細胞・再生医学イノベーション創出プログラム, 2017年

  競争的資金


• 【ALCA】ラン藻代謝改変株の代謝解析とコハク酸生産プロセスの検討

  蓮沼 誠久

  国立研究開発法人科学技術振興機構, 戦略的創造研究推進事業 先端的低炭素化技術開発（ALCA）, 2017年, 研究代表者

  競争的資金


• 微細藻類からのカロテノイド色素の生産技術開発

  蓮沼 誠久

  国立研究開発法人科学技術振興機構, 研究成果最適展開支援プログラム（A-STEP）, 2016年, 研究代表者

  競争的資金


• 宇宙空間におけるユーグレナ等の藻類による物質循環サイクルの実現可能性検証

  蓮沼 誠久

  「きぼう」利用フィジビリティスタディー, 2016年, 研究代表者

  競争的資金


• 【ImPACT】動的代謝解析による海洋性緑藻の油脂生合成発動メカニズムの解明と油脂高生産技術開発への応用

  蓮沼 誠久

  革新的研究開発推進プログラム（ImPACT）, 2016年, 研究代表者

  競争的資金


• 【ALCA】ラン藻代謝改変株の代謝解析とコハク酸生産プロセスの検討

  蓮沼 誠久

  国立研究開発法人科学技術振興機構, 戦略的創造研究推進事業（ALCA）, 2016年, 研究代表者

  競争的資金


• 海洋性緑藻による油脂生産技術の研究開発

  蓮沼 誠久

  新エネルギー・産業技術総合開発機構, 戦略的次世代バイオマスエネルギー利用技術開発事業（次世代技術開発）, 2015年, 研究代表者

  競争的資金


• 海洋性緑藻による油脂生産技術の研究開発

  蓮沼 誠久

  独立行政法人新エネルギー・産業技術総合開発機構, 戦略的次世代バイオマスエネルギー利用技術開発事業（次世代技術開発）, 2014年, 研究代表者

  競争的資金


• 海洋性緑藻による油脂生産技術の研究開発

  蓮沼 誠久

  独立行政法人新エネルギー・産業技術総合開発機構, 戦略的次世代バイオマスエネルギー利用技術開発事業（次世代技術開発）, 2013年, 研究代表者

  競争的資金


• さきがけ「高増殖性微細藻の合成を目指した微細藻代謝フラックス制御機構の解明」

  蓮沼 誠久

  戦略的創造研究推進事業 個人型研究さきがけ, 2013年, 研究代表者

  競争的資金


• 海洋性緑藻による油脂生産技術の研究開発

  蓮沼 誠久

  独立行政法人新エネルギー・産業技術総合開発機構, 戦略的次世代バイオマスエネルギー利用技術開発事業（次世代技術開発）, 2012年, 研究代表者

  競争的資金


• さきがけ「高増殖性微細藻の合成を目指した微細藻代謝フラックス制御機構の解明」

  蓮沼 誠久

  戦略的創造研究推進事業 個人型研究さきがけ, 2012年, 研究代表者

  競争的資金


• さきがけ「高増殖性微細藻の合成を目指した微細藻代謝フラックス制御機構の解明」

  蓮沼 誠久

  戦略的創造研究推進事業 個人型研究さきがけ, 2011年, 研究代表者

  競争的資金


• 動的代謝プロファイリング解析による発酵阻害機構の解明と高ストレス耐性酵母の創製

  蓮沼 誠久

  科学研究費補助金／若手研究(B), 2010年, 研究代表者

  競争的資金

• 油脂成分を製造する方法、及び藻類を使用して高級不飽和脂肪酸を製造する方法

  近藤 昭彦, 蓮沼 誠久, 賀 詩欣, 皆川 純, 西江 晴男, 太郎田 博之, 張 嘉修

  特願14/913618, 2014年03月17日, 特許10351882, 2019年07月16日

  特許権


• サンプリング装置

  蓮沼 誠久, 長堀(虎井) 彩, 松本 好弘

  PCT/JP2019/027323, 2019年07月10日

  特許権


• キャップ着脱装置、並びに、これを備えたサンプリング装置及び前処理装置

  PCT/JP2019/027324, 2019年07月10日

  特許権


• 攪拌装置及び前処理装置

  蓮沼 誠久, 長堀(虎井) 彩, 松本 好弘

  PCT/JP2019/027326, 2019年07月10日

  特許権


• 攪拌装置及び前処理装置

  蓮沼 誠久, 長堀(虎井) 彩, 松本 好弘

  PCT/JP2019/027325, 2019年07月10日

  特許権


• 固液界面検出装置及びこれを備えた前処理装置

  蓮沼 誠久, 渡邊 勉, 篁 直樹

  PCT/JP2019/027327, 2019年07月10日

  特許権


• 分泌シグナルペプチドならびにそれを利用したタンパク質の分泌および細胞表層提示

  近藤 昭彦, 蓮沼 誠久, 猪熊 健太郎

  特願2016-538422, 2015年07月30日, 特許6537076, 2019年06月14日

  特許権


• 油脂成分を産生する方法、高級不飽和脂肪酸の製造方法、及びクラミドモナス・スピーシーズＪＳＣ４株

  近藤 昭彦, 蓮沼 誠久, 賀 詩欣, 皆川 純, 西江 晴男, 太郎田 博之, 張 嘉修

  特願14838058.7, 2014年03月17日, 特許3037543, 2019年05月29日

  特許権


• クラミドモナス藻類から油脂成分を産生する方法

  近藤 昭彦, 蓮沼 誠久, 賀 詩欣, 皆川 純, 西江 晴男, 太郎田 博之, 張 嘉修

  特願14/913594, 2014年03月17日, 特許10214756, 2019年02月26日

  特許権


• 組換え宿主細胞及びＤ－ブタントリオールの新規製造方法

  蓮沼 誠久, 近藤 昭彦, 番場 崇弘

  PCT/JP2019/004582, 2019年02月08日

  特許権


• 油脂成分を産生する方法、高級不飽和脂肪酸の製造方法

  近藤 昭彦, 蓮沼 誠久, 賀 詩欣, 皆川 純, 西江 晴男, 太郎田 博之, 張 嘉修

  特願14837252.7, 2014年03月17日, 特許3037542, 2018年06月13日

  特許権


• 細胞表層発現用ポリヌクレオチド

  近藤 昭彦, 蓮沼 誠久, 猪熊 健太郎

  特願2015-508514, 2014年03月25日, 大学長, 特許6335161, 2018年05月11日

  特許権


• バイオマスからのエタノールの生産方法

  近藤 昭彦, 蓮沼 誠久, 崎濱 由梨

  特願2014-531686, 2013年08月23日, 大学長, 特許6236634, 2017年11月10日

  特許権


• 有機酸の製造方法

  蓮沼 誠久, 松田 真実

  PCT/JP2017/032469, 2017年09月08日

  特許権


• 有機酸の製造方法

  蓮沼 誠久, 松田 真実

  特願2018-539683, 2017年09月08日

  特許権


• 細胞表層発現用ポリヌクレオチド（米国）

  近藤 昭彦, 蓮沼 誠久, 猪熊 健太郎

  14/778250, 2014年03月25日, 大学長, 9751917, 2017年09月05日

  特許権


• 前処理済みの植物性バイオマスから発酵処理物を製造するための方法

  近藤 昭彦, 蓮沼 誠久, 荻野 千秋, 猪熊 健太郎, ギリモ グレゴリー, 渡部 啓吾, 安川 雄介, 金子 令治, 飯森 武志

  特願2017-77676, 2017年04月10日

  特許権


• バイオマスからのエタノールの生産方法

  近藤 昭彦, 蓮沼 誠久, 崎濱 由梨

  特願14/422728, 2013年08月23日, 大学長, 特許9441249, 2016年09月13日

  特許権


• エタノールの新規生産方法

  近藤 昭彦, 蓮沼 誠久

  特願2013-522836, 2012年06月25日, 大学長, 特許5935020, 2016年05月20日

  特許権


• 有機酸の製造方法

  蓮沼 誠久

  特願2017-511006, 2016年04月06日

  特許権


• バイオマスからのエタノールの生産方法

  近藤 昭彦, 蓮沼 誠久, 三田 智也

  特願2011-543349, 2010年11月29日, 大学長, 特許5804327, 2015年09月11日

  特許権


• 油脂成分を産生する方法、及び高級不飽和脂肪酸の製造方法

  蓮沼 誠久, 近藤 昭彦, 賀 詩欣

  特願2014-541229, 2014年03月17日, 大学長, 特許5746796, 2015年05月15日

  特許権


• 油脂成分を産生する方法、高級不飽和脂肪酸の製造方法、及びクラミドモナス・スピーシーズＪＳＣ４株

  近藤 昭彦, 蓮沼 誠久, 賀 詩欣

  特願2014-550560, 2014年03月17日, 大学長, 特許5719977, 2015年03月27日

  特許権


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