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2. Microbial food web - Wikipedia

   en.wikipedia.org/wiki/Microbial_food_web

   Bacteria. In the microbial food web, bacteria play a crucial role in breaking down organic materials and recycling nutrients. They transform DOC into bacterial biomass so that protists and other higher trophic levels can consume it. Additionally, bacteria take part in the nitrogen and carbon cycles, among other biogeochemical cycles. [4] Algae

3. Heliobacteria - Wikipedia

   en.wikipedia.org/wiki/Heliobacteria

   The heliobacteria are phototrophic: they convert light energy into chemical energy using a type I reaction center. [6] [7] The primary pigment involved is bacteriochlorophyll g, which is unique to the group and has a unique absorption spectrum; this gives the heliobacteria their own environmental niche. [5]

4. Microorganism - Wikipedia

   en.wikipedia.org/wiki/Microorganism

   They evolved from symbiotic bacteria and retain a remnant genome. [59] Like bacteria, plant cells have cell walls, and contain organelles such as chloroplasts in addition to the organelles in other eukaryotes. Chloroplasts produce energy from light by photosynthesis, and were also originally symbiotic bacteria. [59]

5. Denitrification - Wikipedia

   en.wikipedia.org/wiki/Denitrification

   Aerobic denitrifiers are mainly Gram-negative bacteria in the phylum Proteobacteria. Enzymes NapAB, NirS, NirK and NosZ are located in the periplasm, a wide space bordered by the cytoplasmic and the outer membrane in Gram-negative bacteria. [16] A variety of environmental factors can influence the rate of denitrification on an ecosystem-wide scale.

6. Oxidative phosphorylation - Wikipedia

   en.wikipedia.org/wiki/Oxidative_phosphorylation

   The two components of the proton-motive force are thermodynamically equivalent: In mitochondria, the largest part of energy is provided by the potential; in alkaliphile bacteria the electrical energy even has to compensate for a counteracting inverse pH difference.

7. Hyperthermophile - Wikipedia

   en.wikipedia.org/wiki/Hyperthermophile

   Thermophiles and hyperthermophiles employ different mechanisms to adapt their cells to heat, especially to the cell wall, plasma membrane, and its biomolecules (DNA, proteins, etc.): [12] The presence in their plasma membrane of long-chain and saturated fatty acids in bacteria and "ether" bonds (diether or tetraether) in archaea. In some ...

8. Bacterial motility - Wikipedia

   en.wikipedia.org/wiki/Bacterial_motility

   Bacterial motility is the ability of bacteria to move independently using metabolic energy. Most motility mechanisms that evolved among bacteria also evolved in parallel among the archaea. Most rod-shaped bacteria can move using their own power, which allows colonization of new environments and discovery of new resources for survival.

9. Electric bacteria - Wikipedia

   en.wikipedia.org/wiki/Electric_bacteria

   Electric bacteria are forms of bacteria that directly consume and excrete electrons at different energy potentials without requiring the metabolization of any sugars or other nutrients. [1] This form of life appears to be especially adapted to low-oxygen environments. Most life forms require an oxygen environment in which to release the excess ...