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carbohydrate catabolic process
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GO_0016052 |
[The chemical reactions and pathways resulting in the breakdown of carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y.] |
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dolichol biosynthetic process
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GO_0019408 |
[The chemical reactions and pathways resulting in the formation of dolichols, any 2,3-dihydropolyprenol derived from four or more linked isoprene units.] |
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polyprenol biosynthetic process
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GO_0016094 |
[The chemical reactions and pathways resulting in the formation of polyprenols, prenols with more than 4 isoprenoid residues, which may be all-trans, or a mixture of cis and trans.] |
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dolichol metabolic process
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GO_0019348 |
[The chemical reactions and pathways involving dolichols, any 2,3-dihydropolyprenol derived from four or more linked isoprene units.] |
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aerobic respiration, using ammonia as electron donor
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GO_0019409 |
[The metabolic process in which ammonia (NH3) is oxidized to nitrite (NO2) in the presence of oxygen; enzymatic reactions convert ammonia to hydrazine, and hydrazine to nitrite.] |
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energy derivation by oxidation of reduced inorganic compounds
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GO_0015975 |
[The chemical reactions and pathways by which a cell derives energy from inorganic compounds; results in the oxidation of the compounds from which energy is released.] |
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ammonia oxidation
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GO_0019329 |
[The chemical reactions and pathways by which ammonia or ammonium is converted to molecular nitrogen or another nitrogen compound, with accompanying loss of electrons.] |
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aerobic respiration, using carbon monoxide as electron donor
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GO_0019410 |
[The metabolic process in which carbon monoxide (CO) is oxidized to carbon dioxide (CO2) to generate energy. Conservation of energy in this process likely uses sodium ion gradients for ATP synthesis and is coupled to quantitative sulfide methylation.] |
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aerobic respiration, using ferrous ions as electron donor
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GO_0019411 |
[The metabolic process in which ferrous ions (Fe2+) are oxidized to ferric ions (Fe3+) to generate energy, coupled to the reduction of carbon dioxide.] |
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aerobic respiration, using hydrogen as electron donor
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GO_0019412 |
[The oxidation of hydrogen (H2) to water (H2O), using oxygen (O2) as the electron acceptor. A hydrogenase enzyme binds H2 and the hydrogen atoms are passed through an electron transfer chain to O2 to form water.] |
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acetate biosynthetic process
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GO_0019413 |
[The chemical reactions and pathways resulting in the formation of acetate, the anion of acetic acid.] |
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aerobic respiration, using sulfur or sulfate as electron donor
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GO_0019414 |
[An aerobic respiration process in which a sulfur-containing molecule (hydrogen sulfide, sulfur, sulfite, thiosulfate, and various polythionates) is oxidized.] |
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acetate biosynthetic process from carbon monoxide
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GO_0019415 |
[The chemical reactions and pathways resulting in the formation of acetate from other compounds, including carbon monoxide.] |
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polythionate oxidation
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GO_0019416 |
[The chemical reactions and pathways resulting in the conversion of thiosulfate to tetrathionate, using cytochrome c as an electron acceptor.] |
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sulfur oxidation
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GO_0019417 |
[The chemical reactions and pathways resulting the addition of oxygen to elemental sulfur.] |
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sulfide oxidation
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GO_0019418 |
[The chemical reactions and pathways resulting in the conversion of sulfide to elemental sulfur in a higher oxidation state, or to sulfite or sulfate.] |
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obsolete sulfate reduction
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GO_0019419 |
[OBSOLETE. The chemical reactions and pathways resulting in the reduction of sulfate to another sulfur-containing ion or compound such as hydrogen sulfide, adenosine-phosphosulfate (APS) or thiosulfate.] |
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dissimilatory sulfate reduction
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GO_0019420 |
[The reduction of sulfate to hydrogen sulfide, which acts as a terminal electron acceptor. Sulfate is activated to adenosine-phosphosulfate (APS) which is then reduced to sulfite, which is in turn reduced to hydrogen sulfide.] |
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sulfate assimilation
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GO_0000103 |
[The pathways by which inorganic sulfate is processed and incorporated into sulfated compounds.] |
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anaerobic respiration
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GO_0009061 |
[The enzymatic release of energy from inorganic and organic compounds (especially carbohydrates and fats) which uses compounds other than oxygen (e.g. nitrate, sulfate) as the terminal electron acceptor.] |
