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Dissolved inorganic carbon accumulating complexes from autotrophic bacteria from extreme environments
Journal of Bacteriology ( IF 3.2 ) Pub Date : 2021-09-20 , DOI: 10.1128/jb.00377-21 Sarah Schmid 1 , Dale Chaput 2 , Mya Breitbart 3 , Rebecca Hines 1 , Samantha Williams 1 , Hunter K Gossett 1 , Sheila D Parsi 1 , Rebecca Peterson 1 , Robert A Whittaker 1 , Angela Tarver 4 , Kathleen M Scott 1
Journal of Bacteriology ( IF 3.2 ) Pub Date : 2021-09-20 , DOI: 10.1128/jb.00377-21 Sarah Schmid 1 , Dale Chaput 2 , Mya Breitbart 3 , Rebecca Hines 1 , Samantha Williams 1 , Hunter K Gossett 1 , Sheila D Parsi 1 , Rebecca Peterson 1 , Robert A Whittaker 1 , Angela Tarver 4 , Kathleen M Scott 1
Affiliation
In nature, concentrations of dissolved inorganic carbon (DIC; = CO2 + HCO3- + CO32-) can be low, and autotrophic organisms adapt with a variety of mechanisms to elevate
intracellular DIC concentrations to enhance CO2 fixation. Such mechanisms have been ...
中文翻译:
来自极端环境的自养细菌的溶解无机碳积累复合物
在自然界中,溶解的无机碳 (DIC; = CO2 + HCO3- + CO32-) 的浓度可能很低,自养生物通过各种机制适应提高细胞内 DIC 浓度以增强 CO2 固定。这种机制已经...
更新日期:2021-09-21
中文翻译:
来自极端环境的自养细菌的溶解无机碳积累复合物
在自然界中,溶解的无机碳 (DIC; = CO2 + HCO3- + CO32-) 的浓度可能很低,自养生物通过各种机制适应提高细胞内 DIC 浓度以增强 CO2 固定。这种机制已经...