You are using the Cyverse mirror of the Planteome Ontology Browser. The main site is at browser.planteome.org.

Term Information

Accession
GO:1902747
Name
negative regulation of lens fiber cell differentiation
Ontology
biological_process
Synonyms
down regulation of lens fiber cell differentiation, down regulation of lens fibre cell differentiation, down-regulation of lens fiber cell differentiation, down-regulation of lens fibre cell differentiation, downregulation of lens fiber cell differentiation, downregulation of lens fibre cell differentiation, negative regulation of lens fibre cell differentiation, inhibition of lens fiber cell differentiation, inhibition of lens fibre cell differentiation
Alternate IDs
None
Definition
Any process that stops, prevents or reduces the frequency, rate or extent of lens fiber cell differentiation. Source: GOC:TermGenie, GO_REF:0000058, GOC:mr, PMID:17592637
Comment
None
History
See term history for GO:1902747 at QuickGO
Subset
None
Feedback
Contact the Planteome feedback if you find mistakes or have concerns about the data you find here.
Comments, changes to terms, or requests for new ontology terms can be made at GO issue tracker on GitHub.

Filter results

Loading...
pending...
External term view.

Graph of GO:1902747

Viewing options
Parents of negative regulation of lens fiber cell differentiation (GO:1902747)
subject[Reorder by subject] relation[Reorder by relation] object[Reorder by object]
negative regulation of lens fiber cell differentiation [is_a relation] is_a  regulation of lens fiber cell differentiation (GO:1902746)
negative regulation of lens fiber cell differentiation [is_a relation] is_a  negative regulation of multicellular organismal process (GO:0051241)
negative regulation of lens fiber cell differentiation [RO:0002212 relation] RO:0002212  lens fiber cell differentiation (GO:0070306)
negative regulation of lens fiber cell differentiation [is_a relation] is_a  negative regulation of epithelial cell differentiation (GO:0030857)

This term has no children.

None.