This term is obsolete.

GO:0019295 JSON

coenzyme M biosynthetic process

Biological Process

Definition (GO:0019295 GONUTS page)

The chemical reactions and pathways resulting in the formation of coenzyme M (2-thioethansulfonate), a coenzyme involved in the utilization of methane by methanogenic prokaryotes.

2,030 annotations

Synonyms

Synonyms are alternative words or phrases closely related in meaning to the term name, with indication of the relationship between the name and synonym given by the synonym scope.

Synonym Type
coenzyme M anabolism exact
coenzyme M biosynthesis exact
coenzyme M formation exact
coenzyme M synthesis exact

Ancestor Chart

Ancestor chart for GO:0019295
Chart options
Ancestor chart

Cross-references

Database ID Description
InterPro IPR022370 Phosphosulpholactate synthase
InterPro IPR027639 ComB, archaeal
MetaCyc P261-PWY
UniProtKB-KW KW-0174 Coenzyme M biosynthesis

Cross-Ontology Relations

Relation Other Ontology ID Term
has_primary_output CHEBI CHEBI:58319 coenzyme M(1-)

Co-occurring Terms

These tables show the number of times the term listed in the table has been co-annotated.

No co-occurrence statistics for GO:0019295 based on ALL annotations
The top 46 of 46 co-occurring terms
Co-occurring Term PR S% #Together #Compared
coenzyme M biosynthetic process
97,951.00 100.00 2,023 2,023
cysteate synthase activity
96,318.48 14.55 295 300
sulfopyruvate decarboxylase activity
7,179.28 6.45 707 9,646
phosphosulfolactate synthase activity
39,299.49 5.95 132 329
phosphonopyruvate decarboxylase activity
3,066.52 1.66 69 2,204
D-serine biosynthetic process
1,840.42 1.60 198 10,538
organic phosphonate biosynthetic process
2,917.88 1.57 65 2,182
2-phosphosulfolactate phosphatase activity
1,549.26 1.33 156 9,863
threonine racemase activity
1,387.69 1.25 198 13,976
serine racemase activity
1,385.70 1.25 198 13,996
Totals 11861 166371074
No co-occurrence statistics for GO:0019295 based on MANUAL annotations
The top 3 of 3 co-occurring terms
Co-occurring Term PR S% #Together #Compared
coenzyme M biosynthetic process
235,255.50 100.00 6 6
sulfopyruvate decarboxylase activity
78,418.50 33.33 6 18
thiamine pyrophosphate binding
3,016.10 1.27 3 234
Totals 15 258

Change Log

Timestamp Action Category Detail
2020-05-08 Deleted RELATION is a GO:0009108 (obsolete coenzyme biosynthetic process)
2017-11-29 Deleted RELATION is a GO:1901576 (obsolete organic substance biosynthetic process)
2017-11-29 Added RELATION is a GO:0016053 (organic acid biosynthetic process)
2017-08-13 Deleted RELATION is a GO:0044711 (obsolete single-organism biosynthetic process)
2013-11-28 Added RELATION is a GO:0044711 (obsolete single-organism biosynthetic process)
2012-11-07 Added RELATION is a GO:1901576 (obsolete organic substance biosynthetic process)
2012-11-02 Added RELATION is a GO:0044272 (sulfur compound biosynthetic process)
2008-05-13 Added DEFINITION The chemical reactions and pathways resulting in the formation of coenzyme M (2-thioethansulfonate), a coenzyme involved in the utilization of methane by methanogenic prokaryotes.
2008-05-12 Deleted DEFINITION The chemical reactions and pathways resulting in the formation of coenzyme M (2-thioethansulfonate), a coenzyme involved in the utilization of methane by methanogenic prokaryotes.
2008-04-01 Updated RELATION is a GO:0009108 (obsolete coenzyme biosynthetic process)
Timestamp Action Category Detail
2007-01-15 Updated TERM coenzyme M biosynthetic process
2001-10-03 Added TERM coenzyme M biosynthesis
Timestamp Action Category Detail
2008-05-13 Added DEFINITION The chemical reactions and pathways resulting in the formation of coenzyme M (2-thioethansulfonate), a coenzyme involved in the utilization of methane by methanogenic prokaryotes.
2008-05-12 Deleted DEFINITION The chemical reactions and pathways resulting in the formation of coenzyme M (2-thioethansulfonate), a coenzyme involved in the utilization of methane by methanogenic prokaryotes.
2007-08-09 Added SYNONYM coenzyme M formation
2007-08-09 Added SYNONYM coenzyme M biosynthesis
2007-08-09 Added SYNONYM coenzyme M anabolism
2007-08-09 Deleted SYNONYM coenzyme M synthesis
2007-08-09 Deleted SYNONYM coenzyme M formation
2007-08-09 Added SYNONYM coenzyme M synthesis
2007-08-09 Deleted SYNONYM coenzyme M biosynthesis
2007-08-09 Deleted SYNONYM coenzyme M anabolism
2007-01-15 Added SYNONYM coenzyme M biosynthesis
2006-05-04 Updated DEFINITION The chemical reactions and pathways resulting in the formation of coenzyme M (2-thioethansulfonate), a coenzyme involved in the utilization of methane by methanogenic prokaryotes.
2005-08-10 Added SYNONYM coenzyme M synthesis
2005-08-10 Added SYNONYM coenzyme M formation
2005-08-10 Added SYNONYM coenzyme M anabolism
2002-11-27 Added DEFINITION The formation from simpler components of coenzyme M (2-thioethansulfonate), a coenzyme involved in the utilization of methane by methanogenic prokaryotes.
Timestamp Action Category Detail
2020-05-08 Deleted RELATION is a GO:0009108 (obsolete coenzyme biosynthetic process)
2017-11-29 Deleted RELATION is a GO:1901576 (obsolete organic substance biosynthetic process)
2017-11-29 Added RELATION is a GO:0016053 (organic acid biosynthetic process)
2017-08-13 Deleted RELATION is a GO:0044711 (obsolete single-organism biosynthetic process)
2013-11-28 Added RELATION is a GO:0044711 (obsolete single-organism biosynthetic process)
2012-11-07 Added RELATION is a GO:1901576 (obsolete organic substance biosynthetic process)
2012-11-02 Added RELATION is a GO:0044272 (sulfur compound biosynthetic process)
2008-04-01 Updated RELATION is a GO:0009108 (obsolete coenzyme biosynthetic process)
2008-04-01 Updated RELATION is a GO:0019296 (coenzyme M metabolic process)
Timestamp Action Category Detail
2003-10-27 Added XREF MetaCyc:P261-PWY
Timestamp Action Category Detail
Please Wait...

Not found :(

Sorry, but the Term you were trying to view does not exist.

Reported error:

It looks like this may have been caused by:

  • a mistyped URL
  • an out-of-date link
This website requires cookies, and the limited processing of your personal data in order to function. By using the site you are agreeing to this as outlined in our Privacy Notice and Terms of Use.