オープン アクセスを義務付けられた論文 - Jun Ishii詳細
一般には非公開: 1 件
Conversion of Mevalonate to Isoprenol Using Light Energy in Escherichia coli without Consuming Sugars for ATP Supply
M Sano, R Tanaka, K Kamata, Y Hirono-Hara, J Ishii, F Matsuda, KY Hara, ...
ACS Synthetic Biology 11 (12), 3966-3972, 2022
委任: 科学技術振興機構
一般公開: 9 件
Avoiding entry into intracellular protein degradation pathways by signal mutations increases protein secretion in Pichia pastoris
Y Ito, M Ishigami, N Hashiba, Y Nakamura, G Terai, T Hasunuma, J Ishii, ...
Microbial Biotechnology 15 (9), 2364-2378, 2022
委任: 科学技術振興機構
Optogenetic reprogramming of carbon metabolism using light-powering microbial proton pump systems
Y Toya, Y Hirono-Hara, H Hirayama, K Kamata, R Tanaka, M Sano, ...
Metabolic Engineering 72, 227-236, 2022
委任: 科学技術振興機構
Enhanced squalene production by modulation of pathways consuming squalene and its precursor
M Tominaga, K Miyazaki, S Hataya, Y Mitsui, S Kuroda, A Kondo, J Ishii
Journal of bioscience and bioengineering 134 (1), 1-6, 2022
委任: 科学技術振興機構
A streamlined strain engineering workflow with genome-wide screening detects enhanced protein secretion in Komagataella phaffii
Y Ito, M Ishigami, G Terai, Y Nakamura, N Hashiba, T Nishi, H Nakazawa, ...
Communications Biology 5 (1), 561, 2022
委任: 科学技術振興機構
Plant flavonoid production in bacteria and yeasts
S Isogai, M Tominaga, A Kondo, J Ishii
Frontiers in Chemical Engineering 4, 880694, 2022
委任: 科学技術振興機構
Engineering of synthetic transcriptional switches in yeast
M Tominaga, A Kondo, J Ishii
Life 12 (4), 557, 2022
委任: 科学技術振興機構
Nanoscopic lignin mapping on cellulose nanofibers via scanning transmission electron microscopy and atomic force microscopy
K Morita, M Takenaka, K Tomita, J Ishii, H Kawaguchi, D Murakami, ...
Cellulose 30 (18), 11357-11367, 2023
委任: 科学技術振興機構
Evolutionary approach for improved proton pumping activity of heterologous rhodopsin expressed in Escherichia coli
K Otsuka, T Seike, Y Toya, J Ishii, Y Hirono-Hara, KY Hara, F Matsuda
Journal of bioscience and bioengineering 134 (6), 484-490, 2022
委任: 科学技術振興機構
Improved 2,3-Butanediol Production Rate of Metabolically Engineered Saccharomyces cerevisiae by Deletion of RIM15 and Activation of Pyruvate Consumption …
M Sugimura, T Seike, N Okahashi, Y Izumi, T Bamba, J Ishii, F Matsuda
International journal of molecular sciences 24 (22), 16378, 2023
委任: 科学技術振興機構
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