CLCN1

CLCN1
Identifiers
Aliases	CLCN1, CLC1, chloride voltage-gated channel 1
External IDs	MGI: 88417 HomoloGene: 63 GeneCards: CLCN1
Targeted by Drug
niflumic acid
Gene ontology Molecular function • protein homodimerization activity • voltage-gated ion channel activity • ion channel activity • protein binding • chloride channel activity • voltage-gated chloride channel activity Cellular component • integral component of membrane • membrane • plasma membrane • integral component of plasma membrane • chloride channel complex • sarcolemma Biological process • muscle contraction • regulation of ion transmembrane transport • chloride transmembrane transport • ion transport • ion transmembrane transport • neuronal action potential propagation • transport • chloride transport • regulation of anion transmembrane transport • transmembrane transport Sources:Amigo / QuickGO
RNA expression pattern
More reference expression data
Orthologs
Species	Human	Mouse
Entrez	1180	12723
Ensembl	ENSG00000188037	ENSMUSG00000029862
UniProt	P35523	Q64347
RefSeq (mRNA)	NM_000083	NM_013491
RefSeq (protein)	NP_000074	NP_038519.1 NP_038519
Location (UCSC)	Chr 7: 143.32 – 143.35 Mb	Chr 6: 42.29 – 42.32 Mb
PubMed search

1180

12723

ENSG00000188037

ENSMUSG00000029862

P35523

Q64347

NM_000083

NM_013491

NP_000074

NP_038519.1
NP_038519

The CLCN family of voltage-dependent chloride channel genes comprises nine members (CLCN1-7, Ka and Kb) which demonstrate quite diverse functional characteristics while sharing significant sequence homology. The protein encoded by this gene regulates the electric excitability of the skeletal muscle membrane. Mutations in this gene cause two forms of inherited human muscle disorders: recessive generalized myotonia congenita (Becker) and dominant myotonia (Thomsen).

Chloride channel protein, skeletal muscle (CLCN1) is a protein that in humans is encoded by the CLCN1 gene. Mutations in this protein cause congenital myotonia.

CLCN1 is critical for the normal function of skeletal muscle cells. For the body to move normally, skeletal muscles must tense (contract) and relax in a coordinated way. Muscle contraction and relaxation are controlled by the flow of ions into and out of muscle cells. CLCN1 forms an ion channel that controls the flow of negatively charged chloride ions into these cells. The main function of this channel is to stabilize the cells' electrical charge, enabling muscles to contract normally.

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Wikipedia