Rchr
J-GLOBAL ID:200901008867663095
Update date: Apr. 17, 2024
Akamatsu Takashi
アカマツ タカシ | Akamatsu Takashi
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Homepage URL (1):
http://www.sojo-u.ac.jp
Research field (3):
Applied microbiology
, Molecular biology
, Applied biofunctional and bioprocess engineering
Research keywords (11):
biorefinery
, Saccharomyces cerevisiae
, ゲノム
, bioethanol
, 形質転換
, 枯草菌
, protoplast
, genome
, interspecific
, transformation
, Bacillus subtilis
Research theme for competitive and other funds (12):
2011 - 2013 竹からの高効率バイオエタノール生産技術の実用化開発
2009 - 2013 酵素糖化・効率的発酵に資する基盤研究/C5代謝遺伝子情報の取得
2009 - 2011 枯草菌への全ゲノム輸送機構解明とタンパク質ナノ輸送への発展
2008 - 2011 都市型バイオマス資源から高効率二段発酵による 燃料用エタノール製造技術の研究開発
2009 - 2010 九州発ビレッジテクノロジー構築に向けた竹からのバイオエタノール変換の技術開発
実用酵母によるグルコース•キシロース•乳酸からのバイオエタノール発酵
プロトプラスト溶菌液からのDNAによる枯草菌の高頻度形質転換
バチルス属における種の壁を越えた育種法の開発
New breeding method using<bfm>genes involving in branched chain fatty acid synthesis
Regeneration of ┣DBBacillus(/)-┫DB ┣DBsubtilis(/)-┫DB protoplasts to the bacillary form
High frequency of transformation by DNAs of gently-lysed protoplasts of ┣DBBacillus(/)-┫DB ┣DBsubtilis(/)-┫DB
Establishment of interspecific breeding in<Bacillus>species
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Papers (8):
Masataka Tomitaka, Hisataka Taguchi, Kohsai Fukuda, Takashi Akamatsu, Kenji Kida. Isolation and characterization of a mutant recombinant Saccharomyces cerevisiae strain with high efficiency xylose utilization. JOURNAL OF BIOSCIENCE AND BIOENGINEERING. 2013. 116. 6. 706-715
Makoto Wakamatsu, Tatsunori Tani, Hisataka Taguchi, Masayoshi Matsuoka, Kenji Kida, Takashi Akamatsu. Ethanol production from D-lactic acid by lactic acid-assimilating Saccharomyces cerevisiae NAM34-4C. JOURNAL OF BIOSCIENCE AND BIOENGINEERING. 2013. 116. 1. 85-90
Makoto Wakamatsu, Masataka Tomitaka, Tatsunori Tani, Hisataka Taguchi, Kenji Kida, Takashi Akamatsu. Improvement of ethanol production from d-lactic acid by constitutive expression of lactate transporter jen1p in saccharomyces cerevisiae. Bioscience, Biotechnology and Biochemistry. 2013. 77. 5. 1114-1116
AKAMATSU Takashi. Potent L-lactic acid assimilation of the fermentative and heterothallic haploid yeast Saccharomyces cerevisiae NAM34-4C. J. Biosci. Bioeng. 2013. 116
Takashi Akamatsu, Hisataka Taguchi. Plasmid transformation of competent Bacillus subtilis by lysed protoplast DNA. JOURNAL OF BIOSCIENCE AND BIOENGINEERING. 2012. 114. 2. 138-143
more...
MISC (32):
プロトプラスト溶菌液中のDNAによる固形培地上での簡便で迅速な枯草菌の同種間および異種間形質転換. Bioscience, Biotechnology, and Biochemistry. 2001. 65. 2. 446-448
枯草菌コンピテント細胞によるプロトプラスト溶菌液中の全染色体DNAの取り込み. Bioscience, Biotechnology, and Biochemistry. 2001. 65. 4. 823-829
Takashi AKAMATSU, Hisataka TAGUCHI. A simple and rapid method for intra-and interspecific transformation of ┣DBBacillus subtilis(/)-┫DB on solid media by DNA in protoplast lysates. ┣DBBiosci. Biotechnol. Biochem.(/)-┫DB. 2001. 65. 2. 446-448
Takashi AKAMATSU, Hisataka TAGUCHI. Incorporation of the whole chromosomal DNA in protoplast lysates into competent cells of ┣DBBacillus subtilis(/)-┫DB. ┣DBBiosci. Biotechnol. Biochem.(/)-┫DB. 2001. 65. 4. 823-829
T Akamatsu, H Taguchi, H Okada. A simple and rapid extraction of high molecular weight chromosomal DNA from Bacillus subtilis protoplasts for cosmid cloning and interspecific transformation. BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY. 2000. 64. 5. 1082-1083
more...
Patents (3):
キシロースの発酵能が強化された酵母とその利用
キシロースからエタノールを発酵する酵母
エタノール発酵性ヘテロタリズム酵母
Lectures and oral presentations (4):
Isolation and characterization of the hex3 mutation leading to rapid assimilation of xylose in a recombinant Saccharomyces cerevisiae
(2013)
Genetic analysis of recombinant Saccharomyces cerevisiae mutant leading to high efficient of xylose assimilation
(2012)
DNA uptake speed of competent Bacillus subtilis
(2012)
Simple, rapid, and high efficiency of double transformation leading to potent manipulation of Saccharomyces cerevisiae
(2012)
Works (4):
種の壁を越えた育種法(異種間でも高頻度に組換えを起こす枯草菌突然変異体の分離とその解析)
2001 -
Establishment of interspecific breeding in<Bacillus>species
2001 -
高頻度に枯草菌の形質を転換させる機構の解析とその応用
2000 -
Transformation mechanism of<Bacillus subtilis>by DNA from gently-lysed protoplasts
2000 -
Education (5):
- 1978 Osaka University
- 1978 Osaka University Graduate School, Division of Engineering
- 1974 Osaka University School of Engineering
- 1974 Osaka University Faculty of Engineering
- 1973 Osaka University 発酵工学科
Professional career (2):
(BLANK) (Osaka University)
(BLANK) (Osaka University)
Work history (1):
- 2017/03 Sojo University Faculty of Biotechnology and Life Science, Department of Applied Microbial Technology
Association Membership(s) (3):
日本遺伝学会
, 日本農芸化学会
, 日本生物工学会
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