Results 31 to 40 of about 3,160,535 (395)
In-Depth Computational Analysis of Natural and Artificial Carbon Fixation Pathways
bioRxiv, 2021 In the recent years, engineering new-to-nature CO2 and C1 fixing metabolic pathways made a leap forward. These new, artificial pathways promise higher yields and activity than natural ones like the Calvin-Benson-Bassham cycle. The question remains how to
Hannes Löwe, A. Kremling
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Improving carbon fixation pathways [PDF]
Current Opinion in Chemical Biology, 2012 A recent resurgence in basic and applied research on photosynthesis has been driven in part by recognition that fulfilling future food and energy requirements will necessitate improvements in crop carbon-fixation efficiencies. Photosynthesis in traditional terrestrial crops is being reexamined in light of molecular strategies employed by photosynthetic
Daniel C, Ducat, Pamela A, Silver
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Genome-resolved insights into the bacterial phylum WOR-3: hydrogenotrophic metabolism and unique carbon fixation via archaeal form III RuBisCO. [PDF]
mSystemsZeng J +8 more
europepmc +2 more sources
MESMO global model output for glacial simulations with dynamic C:N:P ratios [PDF]
, 2020 Dataset: MESMO glacial CNPModel outputs archived have a complete suite of biogeochemical state variables in the 3D global ocean domain. They include temperature, salinity, nutrients (PO4, NO3, Fe, Si), carbon pools and their isotopes (DIC, DOC, POC, 13C ...
Matsumoto, Katsumi
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ACS Synthetic Biology, 2021 The carboxysome is a versatile paradigm of prokaryotic organelles and is a proteinaceous self-assembling microcompartment that plays essential roles in carbon fixation in all cyanobacteria and some chemoautotrophs.
Taiyu Chen +7 more
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Environmental Science and Technology, 2021 Microaerophilic Fe(II)-oxidizing bacteria are often chemolithoautotrophs, and the Fe(III) (oxyhydr)oxides they form could immobilize arsenic (As). If such microbes are active in karstic paddy soils, their activity would help increase soil organic carbon ...
H. Tong +10 more
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CARBON DIOXIDE FIXATION BY MICROORGANISMS [PDF]
Journal of Bacteriology, 1952 Resting cells of eleven microorganisms were exposed to radioactive carbon dioxide for 40 minutes. The radioactive compounds formed during this time were separated and identified by paper chromatography. Resting cells of Lactobacillus casei fixed no carbon dioxide and growing cells fixed carbon dioxide primarily in malic and aspartic acids.
Lynch, Victoria H, Calvin, Melvin
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Recent Advances in Developing Artificial Autotrophic Microorganism for Reinforcing CO2 Fixation
Frontiers in Microbiology, 2020 With the goal of achieving carbon sequestration, emission reduction and cleaner production, biological methods have been employed to convert carbon dioxide (CO2) into fuels and chemicals.
Bo Liang +4 more
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Limnology and Oceanography, 2021 Recent studies indicate that aluminum (Al) could play an important role in the ocean carbon cycle by increasing phytoplankton carbon fixation and reducing organic carbon decomposition. However, how Al may influence the decomposition of organic carbon has
Linbin Zhou +6 more
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Proteomics of Carbon Fixation Energy Sources in Halothiobacillus neapolitanus [PDF]
, 2019 Through the use of proteomics, it was uncovered that the autotrophic, aerobic purple sulfur bacterium Halothiobacillus neapolitanus displays changes in cellular levels of portions of its carbon dioxide uptake and fixation mechanisms upon switch from ...
Hilliard, Newton P, Jr. +3 more
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