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GO:0045161 neuronal ion channel clustering

Term Information

ID GO:0045161
Name neuronal ion channel clustering
Ontology Biological Process
Definition The process in which voltage-gated ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
PMID:11456440
GONUTS GO:0045161 Wiki Page

Taxon Constraints

The use of this term should conform to the following taxon constraints:
Taxon Rule Ancestor GO ID Ancestor GO Term Name Relationship Taxon ID Taxon Reference(s)
GOTAX:0000299 GO:0032501 multicellular organismal process only_in_taxon 2759 Eukaryota
GOTAX:0000537 GO:0032501 multicellular organismal process never_in_taxon 4932 Saccharomyces cerevisiae
GOTAX:0000538 GO:0032501 multicellular organismal process never_in_taxon 4896 Schizosaccharomyces pombe
More information on taxon constraints in GO is available here

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Child Terms

This table lists all terms that are direct descendants (child terms) of GO:0045161:
Relationship To GO:0045161 Child Term Child Term Name
Is a GO:0045162 clustering of voltage-gated sodium channels
Is a GO:0045163 clustering of voltage-gated potassium channels
Is a GO:0070073 clustering of voltage-gated calcium channels

Protein Annotation

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Co-occurring Terms

These tables show the number of times the term listed in the table has been co-annotated with GO:0045161. The terms are listed in descending order of number of times the term has been co-annotated.
The table on the left is calculated using both electronic and manual-evidenced annotations, while the table on the right is calculated using only manual-evidenced annotations.
Co-occurrence statistics for GO:0045161 based on the entire annotation set Co-occurrence statistics for GO:0045161 based on non-IEA annotations only

Change Log

All changes

Timestamp Action Category Detail
2013-09-12 Deleted RELATION is a GO:0016044 (cellular membrane organization)
2013-09-12 Added RELATION is a GO:0044802 (single-organism membrane organization)
2010-12-09 Added DEFINITION The process in which voltage-gated ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2010-12-09 Deleted DEFINITION The process by which voltage-gated ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-10-21 Deleted DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-10-21 Added DEFINITION The process by which voltage-gated ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-05-13 Added DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-05-12 Deleted DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-04-01 Updated RELATION is a GO:0016044 (cellular membrane organization)
2008-04-01 Updated RELATION part of GO:0042551 (neuron maturation)
2005-08-18 Updated TERM neuronal ion channel clustering
2005-08-16 Updated DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2002-11-27 Added DEFINITION The process by which voltage-gated sodium and potassium become localized to distinct subcellular domains. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2002-04-26 Added TERM ion channel clustering

Term

Timestamp Action Category Detail
2005-08-18 Updated TERM neuronal ion channel clustering
2002-04-26 Added TERM ion channel clustering

Definition/synonyms

Timestamp Action Category Detail
2010-12-09 Added DEFINITION The process in which voltage-gated ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2010-12-09 Deleted DEFINITION The process by which voltage-gated ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-10-21 Deleted DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-10-21 Added DEFINITION The process by which voltage-gated ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-05-13 Added DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2008-05-12 Deleted DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2005-08-16 Updated DEFINITION The process by which voltage-gated sodium and potassium ion channels become localized to distinct subcellular domains in the neuron. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.
2002-11-27 Added DEFINITION The process by which voltage-gated sodium and potassium become localized to distinct subcellular domains. Specific targeting, clustering, and maintenance of these channels in their respective domains are essential to achieve high conduction velocities of action potential propagation.

Relationships

Timestamp Action Category Detail
2013-09-12 Deleted RELATION is a GO:0016044 (cellular membrane organization)
2013-09-12 Added RELATION is a GO:0044802 (single-organism membrane organization)
2008-04-01 Updated RELATION is a GO:0016044 (cellular membrane organization)
2008-04-01 Updated RELATION part of GO:0042551 (neuron maturation)
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