ClC6
33 literature references associated to ClC6
1
Onur S
et al.
Association between serum level of ubiquinol and NT-proBNP, a marker for chronic heart failure, in healthy elderly subjects.
Biofactors,
2015 Jan-Feb
, 41 (35-43).
2
Pereira NL
et al.
Circulating atrial natriuretic peptide genetic association study identifies a novel gene cluster associated with stroke in whites.
Circ Cardiovasc Genet,
2015
Feb
, 8 (141-9).
3
Yamamoto T
et al.
Single nucleotide variations in CLCN6 identified in patients with benign partial epilepsies in infancy and/or febrile seizures.
PLoS ONE,
2015
, 10 (e0118946).
4
Del Greco M F
et al.
Genome-wide association analysis and fine mapping of NT-proBNP level provide novel insight into the role of the MTHFR-CLCN6-NPPA-NPPB gene cluster.
Hum. Mol. Genet.,
2011
Apr
15
, 20 (1660-71).
5
Cao L
et al.
Chloride channels and transporters in human corneal epithelium.
Exp. Eye Res.,
2010
Jun
, 90 (771-9).
6
Neagoe I
et al.
The late endosomal ClC-6 mediates proton/chloride countertransport in heterologous plasma membrane expression.
J. Biol. Chem.,
2010
Jul
9
, 285 (21689-97).
7
Tomaszewski M
et al.
Genetic architecture of ambulatory blood pressure in the general population: insights from cardiovascular gene-centric array.
Hypertension,
2010
Dec
, 56 (1069-76).
8
Pressey SN
et al.
Distinct neuropathologic phenotypes after disrupting the chloride transport proteins ClC-6 or ClC-7/Ostm1.
J. Neuropathol. Exp. Neurol.,
2010
Dec
, 69 (1228-46).
9
Jentsch TJ
Chloride and the endosomal-lysosomal pathway: emerging roles of CLC chloride transporters.
J. Physiol. (Lond.),
2007
Feb
1
, 578 (633-40).
10
Ignoul S
et al.
Human ClC-6 is a late endosomal glycoprotein that associates with detergent-resistant lipid domains.
PLoS ONE,
2007
, 2 (e474).
11
Poet M
et al.
Lysosomal storage disease upon disruption of the neuronal chloride transport protein ClC-6.
Proc. Natl. Acad. Sci. U.S.A.,
2006
Sep
12
, 103 (13854-9).
12
Suzuki T
et al.
Intracellular localization of ClC chloride channels and their ability to form hetero-oligomers.
J. Cell. Physiol.,
2006
Mar
, 206 (792-8).
13
Comes N
et al.
Differential expression of the human chloride channel genes in the trabecular meshwork under stress conditions.
Exp. Eye Res.,
2005
Jun
, 80 (801-13).
14
Ernest NJ
et al.
Relative contribution of chloride channels and transporters to regulatory volume decrease in human glioma cells.
Am. J. Physiol., Cell Physiol.,
2005
Jun
, 288 (C1451-60).
15
Mummery JL
et al.
Expression of the chloride channel CLC-K in human airway epithelial cells.
Can. J. Physiol. Pharmacol.,
2005
Dec
, 83 (1123-8).
16
Davies N
et al.
Chloride channel gene expression in the rabbit cornea.
Mol. Vis.,
2004
Dec
30
, 10 (1028-37).
17
Auzanneau C
et al.
A Novel voltage-dependent chloride current activated by extracellular acidic pH in cultured rat Sertoli cells.
J. Biol. Chem.,
2003
May
23
, 278 (19230-6).
18
Kida Y
et al.
Localization of mouse CLC-6 and CLC-7 mRNA and their functional complementation of yeast CLC gene mutant.
Histochem. Cell Biol.,
2001
Mar
, 115 (189-94).
19
Lamb FS
et al.
Ontogeny of CLCN3 chloride channel gene expression in human pulmonary epithelium.
Am. J. Respir. Cell Mol. Biol.,
2001
Apr
, 24 (376-81).
20
Scherer CR
et al.
Gene expression profiles of CLC chloride channels in animal models with different cardiovascular diseases.
Cell. Physiol. Biochem.,
2001
, 11 (321-30).
21
Gaughan DJ
et al.
The human and mouse methylenetetrahydrofolate reductase (MTHFR) genes: genomic organization, mRNA structure and linkage to the CLCN6 gene.
Gene,
2000
Oct
31
, 257 (279-89).
22
Schwingshackl A
et al.
Involvement of ion channels in human eosinophil respiratory burst.
J. Allergy Clin. Immunol.,
2000
Aug
, 106 (272-9).
23
Kornak U
et al.
Complete genomic structure of the CLCN6 and CLCN7 putative chloride channel genes(1).
Biochim. Biophys. Acta,
1999
Oct
6
, 1447 (100-6).
24
Schriever AM
et al.
CLC chloride channels in Caenorhabditis elegans.
J. Biol. Chem.,
1999
Nov
26
, 274 (34238-44).
25
Lamb FS
et al.
Expression of CLCN voltage-gated chloride channel genes in human blood vessels.
J. Mol. Cell. Cardiol.,
1999
Mar
, 31 (657-66).
26
Hagos Y
et al.
Chloride conductance in HT29 cells: investigations with apical membrane vesicles and RT-PCR.
Pflugers Arch.,
1999
Apr
, 437 (724-30).
27
Schmieder S
et al.
Characterization of the putative chloride channel xClC-5 expressed in Xenopus laevis oocytes and comparison with endogenous chloride currents.
J. Physiol. (Lond.),
1998
Sep
1
, 511 ( Pt 2) (379-93).
28
Buyse G
et al.
Evidence for the intracellular location of chloride channel (ClC)-type proteins: co-localization of ClC-6a and ClC-6c with the sarco/endoplasmic-reticulum Ca2+ pump SERCA2b.
Biochem. J.,
1998
Mar
1
, 330 ( Pt 2) (1015-21).
29
Eggermont J
The exon-intron architecture of human chloride channel genes is not conserved.
Biochim. Biophys. Acta,
1998
Apr
29
, 1397 (156-60).
30
Eggermont J
et al.
Alternative splicing of ClC-6 (a member of the CIC chloride-channel family) transcripts generates three truncated isoforms one of which, ClC-6c, is kidney-specific.
Biochem. J.,
1997
Jul
1
, 325 ( Pt 1) (269-76).
31
Buyse G
et al.
Expression of human pICln and ClC-6 in Xenopus oocytes induces an identical endogenous chloride conductance.
J. Biol. Chem.,
1997
Feb
7
, 272 (3615-21).
32
Hechenberger M
et al.
A family of putative chloride channels from Arabidopsis and functional complementation of a yeast strain with a CLC gene disruption.
J. Biol. Chem.,
1996
Dec
27
, 271 (33632-8).
33
Brandt S
et al.
ClC-6 and ClC-7 are two novel broadly expressed members of the CLC chloride channel family.
FEBS Lett.,
1995
Dec
11
, 377 (15-20).