Hippea maritima细菌
Webb2024年,德国团队发现Hippea Maritima细菌的逆向三羧酸循环 (TCA),这个过程使得细菌能够在充斥着CO2气体的环境中茁壮成长,为物种起源提供了新的线索。 合成生物学工具在利用生物技术应对社会挑战方面的潜力不仅体现在基础科学研究中,在实际应用中也发挥着重要作用,如生产生物燃料、生物医药的合成/多功能材料,以及大规模生产化学品和 … WebbMiroshnichenko, M.L., Rainey, F.A., Rhode, M., and Bonch-Osmolovskaya, E.A. 1999. Hippea maritima gen. nov., sp. nov., a new genus of thermophilic, sulfur-reducing ...
Hippea maritima细菌
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WebbHippea maritima is a thermophilic, sulfur-reducing bacterium that was isolated from shallow submarine hot vents [78]. It was previously placed in the family Desulfurellaceae based on its 16S rRNA ... Webb9 maj 2024 · 研究团队用嗜热的硫磺还原性脱脂菌Hippea maritima表征出maritima细菌的逆向TCA循环过程。 研究结果显示,这一途径是由高分压的二氧化碳驱动的。 这些高分压对于通过还原性羧化为丙酮酸来清除产品乙酰辅酶A(acetyl-CoA)尤为重要,这是由丙酮酸合成酶催化的。 基于这一研究结果,团队做出合理推测:在假定富含二氧化碳的原 …
Webb21 apr. 2024 · Steffens and colleagues studied Hippea maritima bacteria. These microorganisms shun oxygen, love temperatures near 60 °C, and obtain energy from the reaction of hydrogen gas (H 2) with sulfur... http://toxlab.ahmu.edu.cn/content/detail/60a2784b7f8b9a2f41cda2f0.html
Webb2024年,德国团队发现Hippea Maritima细菌的逆向三羧酸循环(TCA),这个过程使得细菌能够在充斥着CO2气体的环境中茁壮成长,为物种起源提供了新的线索。 在实际应用中,合成生物学也发挥着重要作用。 作为生物学、生物信息学、计算机科学、化学、材料学等多学科交叉融合的学科,合成生物学可以广泛地应用于多个重要关键领域,如生产生物 … WebbUsing Hippea maritima bacteria as the research object, the 13C carbon isotope labeling method was used to track the carbon dioxide eaten by the bacteria, and the accumulation of intermediate molecule 13C was recorded, characterizing the reverse TCA cycle process of Hippea maritima bacteria.
Webb19 nov. 2024 · 2024年,德国团队发现Hippea Maritima细菌的逆向三羧酸循环 (TCA),这个过程使得细菌能够在充斥着CO2气体的环境中茁壮成长,为物种起源提供了新的线索。 合成生物学工具在利用生物技术应对社会挑战方面的潜力不仅体现在基础科学研究中,在实际应用中也发挥着重要作用,如生产生物燃料、生物医药的合成/多功能材料,以及大规 …
Webb8 maj 2024 · Hippea maritima细菌并不是唯一已知的具有可逆代谢的细菌。 Martina Preiner 和William F. Martin高度评价了Ivan A. Berg和Wolfgang Eisenreich团队的工 … learning solutions matterWebb9 maj 2024 · Hippea maritima细菌并不是唯一已知的具有可逆代谢的细菌。 Martina Preiner 和William F. Martin高度评价了Ivan A. Berg和Wolfgang Eisenreich团队的工作:“他们 … learning solutions vernal utahWebb21 apr. 2024 · This sulphur-reducer, Hippea maritima, grew also without acetate, but still required ~200 mg/L yeast extract for the growth on H 2 /CO 2. This amount of yeast extract may appear to be insignificant at first sight but would be more than sufficient to explain the observed growth. learning sonae mcWebb斯蒂芬斯和他的同事研究了这种细菌 Hippea maritima .这些微生物不喜欢氧气,喜欢接近60°C的高温,从氢的反应中获得能量 (H 2 )和硫一起产生硫化氢 (H 2 像所有的生命形式一样,它们需要一种碳源来生长。 而他 … learning something new he is the best of allWebbHippea maritima is not the only known example of a bacterium with reversible metabolism. Another example is the bacter-ium Thermacetogeniumphaeum, which grows under conditions similar to those that support H. maritima (high CO 2 and an absence of oxy - gen), but in industrial cellulose-processing learning something new everydaylearning songs cdWebbHippea maritima Taxonomy ID: 84405(for references in articles please use NCBI:txid84405) current name Hippeamaritima Miroshnichenko et al. 1999 type strain of Hippeamaritima: ATCC:700847, DSM:10411, personal::MH2 NCBI BLAST name: d-proteobacteria Rank: species Genetic code: Translation table 11 (Bacterial, Archaeal … learning some simple french words