Search term(s): GO:0015975
Here you see a subgraph of the complete GO graph, with your query GO:0015975 as the highest hiearchical level and all levels of lower hierarchy. The number of PDB entries, for which a UniProt entry annotated with the corresponding GO term is available, is shown in square brackets for all hiearchical levels of the subgraph.
energy derivation by oxidation of reduced inorganic compounds (
GO:0015975)
aerobic respiration, using ammonia as electron donor (
GO:0019409)
aerobic respiration, using arsenite as electron donor (
GO:0043554)
aerobic respiration, using carbon monoxide as electron donor (
GO:0019410)
aerobic respiration, using ferrous ions as electron donor (
GO:0019411)
aerobic respiration, using hydrogen as electron donor (
GO:0019412)
aerobic respiration, using nitrite as electron donor (
GO:0019332)
aerobic respiration, using sulfur or sulfate as electron donor (
GO:0019414)
anaerobic respiration, using ammonium as electron donor (
GO:0019331)
-
- [67 PDB entries]
methane biosynthetic process from 3-(methylthio)propionic acid (
GO:2001132)
negative regulation of methane biosynthetic process from 3-(methylthio)propionic acid (
GO:1900334)
positive regulation of methane biosynthetic process from 3-(methylthio)propionic acid (
GO:1900335)
regulation of methane biosynthetic process from 3-(methylthio)propionic acid (
GO:1900333)
methane biosynthetic process from carbon monoxide (
GO:2001134)
negative regulation of methane biosynthetic process from carbon monoxide (
GO:1900337)
positive regulation of methane biosynthetic process from carbon monoxide (
GO:1900338)
regulation of methane biosynthetic process from carbon monoxide (
GO:1900336)
methane biosynthetic process from dimethyl sulfide (
GO:2001131)
negative regulation of methane biosynthetic process from dimethyl sulfide (
GO:1900343)
positive regulation of methane biosynthetic process from dimethyl sulfide (
GO:1900344)
regulation of methane biosynthetic process from dimethyl sulfide (
GO:1900342)
methane biosynthetic process from dimethylamine (
GO:2001129)
negative regulation of methane biosynthetic process from dimethylamine (
GO:1900319)
positive regulation of methane biosynthetic process from dimethylamine (
GO:1900320)
regulation of methane biosynthetic process from dimethylamine (
GO:1900318)
methane biosynthetic process from formic acid (
GO:2001127)
negative regulation of methane biosynthetic process from formic acid (
GO:1900340)
positive regulation of methane biosynthetic process from formic acid (
GO:1900341)
regulation of methane biosynthetic process from formic acid (
GO:1900339)
methane biosynthetic process from methanethiol (
GO:2001133)
negative regulation of methane biosynthetic process from methanethiol (
GO:1900346)
positive regulation of methane biosynthetic process from methanethiol (
GO:1900347)
regulation of methane biosynthetic process from methanethiol (
GO:1900345)
methane biosynthetic process from methylamine (
GO:2001128)
negative regulation of methane biosynthetic process from methylamine (
GO:1900349)
positive regulation of methane biosynthetic process from methylamine (
GO:1900350)
regulation of methane biosynthetic process from methylamine (
GO:1900348)
methane biosynthetic process from trimethylamine (
GO:2001130)
negative regulation of methane biosynthetic process from trimethylamine (
GO:1900331)
positive regulation of methane biosynthetic process from trimethylamine (
GO:1900332)
regulation of methane biosynthetic process from trimethylamine (
GO:1900330)
- [2 PDB entries]
- [29 PDB entries]
methane biosynthetic process from methanol and hydrogen (
GO:1990491)
Click on the GO accession number to get a tree view of the GO hierarchy without information on PDB entries. In this case your query level and all levels of higher hierarchy up to the root level Gene_Ontology (GO:0003673) are displayed.
If you enter the GO tree somewhere and if you want to get a view of the whole tree first click on the GO name. This yields the low-hierarchy part. Then click on the GO accession number of the lowest hierarchical level. This gives a view of the complete tree. Note, that certain GO terms belong to more than one path.
GO2PDB@JenaLib
Tue Jul 9 10:48:17 2019
