energy derivation by oxidation of reduced inorganic compounds
about
methanogenesisaerobic respiration, using nitrite as electron donoranaerobic respiration, using ammonium as electron donoraerobic respiration, using ammonia as electron donoraerobic respiration, using arsenite as electron donoraerobic respiration, using sulfur or sulfate as electron donoraerobic respiration, using hydrogen as electron donoraerobic respiration, using ferrous ions as electron donoraerobic respiration, using carbon monoxide as electron donorlead sulfide oxidation
P279
Q22275999-2E64B939-A0D1-4E22-A58E-4CA0A8AE7B4FQ22281340-DACA6754-D50D-4F79-9E74-D6EB5702D9D0Q22281342-A7615D1B-E955-42E0-B7CA-7E481D853EA4Q22281344-6C3DE5F0-28E8-43B5-8225-C2769D6E4A3DQ22284448-D29D897E-2C4F-4391-80E7-55590DF0E6F1Q22284450-7BDD4A37-5E62-485A-895D-3CFE7F4D2239Q22284451-AC5E3319-9F6D-46F3-ADAA-3135A33282B9Q22284452-E467E3FD-C80F-47B5-9C7B-7B076BFA2D80Q22284453-1DDAA34F-8218-4285-B668-59CAEE423A5AQ22284456-94C2AC06-F3BB-4C60-BC8E-BB2408E33E33
P279
energy derivation by oxidation of reduced inorganic compounds
description
The chemical reactions and pat ...... from which energy is released.
@en
biologisch proces
@nl
name
energy derivation by oxidation of reduced inorganic compounds
@en
type
label
energy derivation by oxidation of reduced inorganic compounds
@en
altLabel
GO:0015975
@en
chemolithotrophie
@en
chemolithotrophy
@en
lithotrophy
@en
prefLabel
energy derivation by oxidation of reduced inorganic compounds
@en
P2888
P686
GO:0015975