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Cyanobacteria is the only prokaryotic group that performs oxygenic photosynthesis. Anoxygenic photosynthetic bacteria use PSI- and PSII-like photosystems, which are pigment protein complexes for capturing light. [5] Both of these photosystems use bacteriochlorophyll. There are multiple hypotheses for how oxygenic photosynthesis evolved.
In a reversal of the pattern on land, in the oceans, almost all photosynthesis is performed by algae and cyanobacteria, with a small fraction contributed by vascular plants and other groups. Algae encompass a diverse range of organisms, ranging from single floating cells to attached seaweeds. They include photoautotrophs from a variety of groups.
Cyanobacteria (/ s aɪ ˌ æ n oʊ b æ k ˈ t ɪər i. ə /), also called Cyanobacteriota or Cyanophyta, are a phylum of autotrophic gram-negative bacteria [4] that can obtain biological energy via oxygenic photosynthesis. The name "cyanobacteria" (from Ancient Greek κύανος (kúanos) 'blue') refers to their bluish green color, [5] [6 ...
Cyanobacteria photosystem II, Dimer, PDB 2AXT Photosystem II (or water-plastoquinone oxidoreductase ) is the first protein complex in the light-dependent reactions of oxygenic photosynthesis . It is located in the thylakoid membrane of plants , algae , and cyanobacteria .
As in cyanobacteria and chloroplasts, this is a solid-state process that depends on the precise orientation of various functional groups within a complex transmembrane macromolecular structure. To make NADPH, purple bacteria use an external electron donor (hydrogen, hydrogen sulfide , sulfur, sulfite, or organic molecules such as succinate and ...
In plants, algae, and cyanobacteria, photosynthesis releases oxygen. This oxygenic photosynthesis is by far the most common type of photosynthesis used by living organisms. Some shade-loving plants (sciophytes) produce such low levels of oxygen during photosynthesis that they use all of it themselves instead of releasing it to the atmosphere.
Between 2.5 and 3.0 billion years ago, cyanobacteria started using the energy from light to split water, releasing oxygen into the anaerobic, reducing environment. [5] [8] Parts of this ancient cyanobacterial metabolism are still maintained today. [8] Bandyopadhyay et al. 2011 created a phylogenic tree for cyanobacteria using 226 homolog ...
In aquatic habitats, unicellular cyanobacteria are considered as an important group regarding abundance, diversity, and ecological character. [47] Unicellular cyanobacteria have spherical, ovoid, or cylindrical cells that may aggregate into irregular or regular colonies bound together by the mucous matrix ( mucilage ) secreted during the growth ...