Term Information

Accession
GO:0003029
Name
detection of hypoxic conditions in blood by carotid body chemoreceptor signaling
Ontology
biological_process
Synonyms
detection of hypoxic conditions in blood by carotid body chemoreceptor signalling
Alternate IDs
None
Definition
The process in which information about a lack of oxygen are received and are converted to a molecular signal by chemoreceptors in the carotid bodies. Source: GOC:mtg_cardio
Comment
None
History
See term history for GO:0003029 at QuickGO
Subset
None
Feedback
Comments, changes to terms, or requests for new ontology terms can be made at GO issue tracker on GitHub.

Filter results

Loading...
pending...
Parents of detection of hypoxic conditions in blood by carotid body chemoreceptor signaling (GO:0003029)
subject[Reorder by subject] relation[Reorder by relation] object[Reorder by object]
detection of hypoxic conditions in blood by carotid body chemoreceptor signaling [is_a relation] is_a  detection of hypoxic conditions in blood by chemoreceptor signaling (GO:0002007)
detection of hypoxic conditions in blood by carotid body chemoreceptor signaling [BFO:0000050 relation] BFO:0000050  regulation of systemic arterial blood pressure by carotid body chemoreceptor signaling (GO:0003027)
Children of detection of hypoxic conditions in blood by carotid body chemoreceptor signaling (GO:0003029)
subject[Reorder by subject] relation[Reorder by relation] object[Reorder by object]
detection of reduced oxygen by carotid body chemoreceptor signaling (GO:0003039) [BFO:0000050 relation] BFO:0000050  detection of hypoxic conditions in blood by carotid body chemoreceptor signaling
detection of increased carbon dioxide by carotid body chemoreceptor signaling (GO:0003035) [BFO:0000050 relation] BFO:0000050  detection of hypoxic conditions in blood by carotid body chemoreceptor signaling
detection of pH by carotid body chemoreceptor signaling (GO:0003037) [BFO:0000050 relation] BFO:0000050  detection of hypoxic conditions in blood by carotid body chemoreceptor signaling
None.