Circadian oscillation of a cyanobacterium doesn't need all three Kai proteins to keep going
Circadian rhythms are driven by a highly autonomous, self-sustaining circadian clock within cells, telling us when to sleep or wake up in a 24-hour cycle.
Circadian rhythms are driven by a highly autonomous, self-sustaining circadian clock within cells, telling us when to sleep or wake up in a 24-hour cycle.
Molecular & Computational biology
May 27, 2020
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14
Lakes and reservoirs are important sources of drinking water, but the high frequency of toxic cyanobacteria bloom and associated cyanotoxin could impair drinking water quality. In recent years, major studies have investigated ...
Cell & Microbiology
May 14, 2020
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5
Introverts take heart: When cells, like some people, get too squished, they can go into defense mode, even shutting down photosynthesis.
Cell & Microbiology
Mar 23, 2020
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261
A Kobe University led research team has illuminated the mechanism by which cyanobacteria (Synechocystis sp. PCC 6803) produces D-lactate, showing that malic enzyme facilitates this production. Subsequently, they succeeded ...
Biochemistry
Mar 10, 2020
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12
Cyanobacteria—colloquially called blue-green algae—can produce oil from water and carbon dioxide with the help of light. This is shown by a recent study by the University of Bonn. The result is unexpected: Until now, ...
Plants & Animals
Mar 5, 2020
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2270
Marine cyanobacteria are single-cell organisms that settled in the oceans millions of years ago. They are organisms that, by means of photosynthesis, create organic material by using inorganic substances. Specifically, the ...
Earth Sciences
Mar 2, 2020
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11
Scientists from the University of Amsterdam are warning that problems with toxic cyanobacteria are likely to increase in the future. In an article in the journal Science Advances, they show that a common cyanobacterium adapts ...
Plants & Animals
Feb 20, 2020
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287
Scientists have determined the structure of the protein complex that gives cyanobacteria their unique ability to convert weak, filtered sunlight into useable energy. Their findings could one day be used to engineer crops ...
Cell & Microbiology
Feb 5, 2020
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588
Ludwig-Maximilians-Universitaet (LMU) in Munich biologists Marcel Dann and Dario Leister have demonstrated for the first time that cyanobacteria and plants employ similar mechanisms and key proteins to regulate cyclic electron ...
Cell & Microbiology
Nov 27, 2019
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6
A new Michigan State University study has identified a family of genes in cyanobacteria that help control carbon dioxide fixation.
Plants & Animals
Oct 8, 2019
1
274