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    CLCN4 chloride voltage-gated channel 4 [ Homo sapiens (human) ]

    Gene ID: 1183, updated on 17-Sep-2024

    GeneRIFs: Gene References Into Functions

    Submit: New GeneRIFCorrection

    GeneRIFPubMed TitleDate
    Genotype-phenotype correlation in CLCN4-related developmental and epileptic encephalopathy.

    Genotype-phenotype correlation in CLCN4-related developmental and epileptic encephalopathy.
    Sahly AN, Sierra-Marquez J, Bungert-Plümke S, Franzen A, Mougharbel L, Berrahmoune S, Dassi C, Poulin C, Srour M, Guzman RE, Myers KA.

    		08/14/2024
    absence of learning difficulties in a hyperactive boy with a terminal Xp deletion encompassing the MRX49 locus

    Absence of learning difficulties in a hyperactive boy with a terminal Xp deletion encompassing the MRX49 locus.
    Tobias ES, Bryce G, Farmer G, Barton J, Colgan J, Morrison N, Cooke A, Tolmie JL., Free PMC Article

    		03/17/2023
    Functional and clinical studies reveal pathophysiological complexity of CLCN4-related neurodevelopmental condition.

    Functional and clinical studies reveal pathophysiological complexity of CLCN4-related neurodevelopmental condition.
    Palmer EE, Pusch M, Picollo A, Forwood C, Nguyen MH, Suckow V, Gibbons J, Hoff A, Sigfrid L, Megarbane A, Nizon M, Cogné B, Beneteau C, Alkuraya FS, Chedrawi A, Hashem MO, Stamberger H, Weckhuysen S, Vanlander A, Ceulemans B, Rajagopalan S, Nunn K, Arpin S, Raynaud M, Motter CS, Ward-Melver C, Janssens K, Meuwissen M, Beysen D, Dikow N, Grimmel M, Haack TB, Clement E, McTague A, Hunt D, Townshend S, Ward M, Richards LJ, Simons C, Costain G, Dupuis L, Mendoza-Londono R, Dudding-Byth T, Boyle J, Saunders C, Fleming E, El Chehadeh S, Spitz MA, Piton A, Gerard B, Abi Warde MT, Rea G, McKenna C, Douzgou S, Banka S, Akman C, Bain JM, Sands TT, Wilson GN, Silvertooth EJ, Miller L, Lederer D, Sachdev R, Macintosh R, Monestier O, Karadurmus D, Collins F, Carter M, Rohena L, Willemsen MH, Ockeloen CW, Pfundt R, Kroft SD, Field M, Laranjeira FER, Fortuna AM, Soares AR, Michaud V, Naudion S, Golla S, Weaver DD, Bird LM, Friedman J, Clowes V, Joss S, Pölsler L, Campeau PM, Blazo M, Bijlsma EK, Rosenfeld JA, Beetz C, Powis Z, McWalter K, Brandt T, Torti E, Mathot M, Mohammad SS, Armstrong R, Kalscheuer VM., Free PMC Article

    		02/14/2023
    The molecular and phenotypic spectrum of CLCN4-related epilepsy.

    The molecular and phenotypic spectrum of CLCN4-related epilepsy.
    He H, Guzman RE, Cao D, Sierra-Marquez J, Yin F, Fahlke C, Peng J, Stauber T.

    		10/9/2021
    We report 10 additional families with nine novel CLCN4 variants, extend the molecular spectrum to include splice site variants and single-exon deletions, suggest genotype-phenotype correlation, and present detailed clinical phenotypic information about CLCN4-related disorder in 29 hemizygous males and 23 heterozygous females from 16 families.

    De novo and inherited mutations in the X-linked gene CLCN4 are associated with syndromic intellectual disability and behavior and seizure disorders in males and females.
    Palmer EE, Stuhlmann T, Weinert S, Haan E, Van Esch H, Holvoet M, Boyle J, Leffler M, Raynaud M, Moraine C, van Bokhoven H, Kleefstra T, Kahrizi K, Najmabadi H, Ropers HH, Delgado MR, Sirsi D, Golla S, Sommer A, Pietryga MP, Chung WK, Wynn J, Rohena L, Bernardo E, Hamlin D, Faux BM, Grange DK, Manwaring L, Tolmie J, Joss S, DDD Study, Cobben JM, Duijkers FAM, Goehringer JM, Challman TD, Hennig F, Fischer U, Grimme A, Suckow V, Musante L, Nicholl J, Shaw M, Lodh SP, Niu Z, Rosenfeld JA, Stankiewicz P, Jentsch TJ, Gecz J, Field M, Kalscheuer VM., Free PMC Article

    		02/16/2019
    Unique oligomerization properties of ClC-4 permit regulated targeting of ClC-4 to various endosomal compartment systems via expression of different ClC-3 splice variants.

    Preferential association with ClC-3 permits sorting of ClC-4 into endosomal compartments.
    Guzman RE, Bungert-Plümke S, Franzen A, Fahlke C., Free PMC Article

    		11/3/2018
    This study performed whole exome sequencing demonistrated that the true de novo variants represent mutations in genes (KCNH5, CLCN4, and ARHGEF15) not previously associated with epilepsies in humans.

    Exome sequencing reveals new causal mutations in children with epileptic encephalopathies.
    Veeramah KR, Johnstone L, Karafet TM, Wolf D, Sprissler R, Salogiannis J, Barth-Maron A, Greenberg ME, Stuhlmann T, Weinert S, Jentsch TJ, Pazzi M, Restifo LL, Talwar D, Erickson RP, Hammer MF., Free PMC Article

    		09/7/2013
    the voltage dependence of uncoupled ClC-4 by protons and anions

    Anion- and proton-dependent gating of ClC-4 anion/proton transporter under uncoupling conditions.
    Orhan G, Fahlke C, Alekov AK., Free PMC Article

    		06/4/2011
    CLCN4 is a novel driver of colon cancer progression.

    Gene trapping identifies chloride channel 4 as a novel inducer of colon cancer cell migration, invasion and metastases.
    Ishiguro T, Avila H, Lin SY, Nakamura T, Yamamoto M, Boyd DD., Free PMC Article

    		03/29/2010
    Studies showed that three novel CLC-5 mutations were identified, and mutations in OCRL1, CLC-4 and cofilin excluded in causing Dent's disease.

    Mutational analysis of CLC-5, cofilin and CLC-4 in patients with Dent's disease.
    Wu F, Reed AA, Williams SE, Loh NY, Lippiat JD, Christie PT, Large O, Bettinelli A, Dillon MJ, Goldraich NP, Hoppe B, Lhotta K, Loirat C, Malik R, Morel D, Kotanko P, Roussel B, Rubinger D, Schrander-Stumpel C, Serdaroglu E, Nesbit MA, Ashcroft F, Thakker RV.

    		01/21/2010
    The proposed mechanism results in anion-dependent conversion of ClC-type exchanger into an anion channel with typical attributes of ClC anion channels.

    Channel-like slippage modes in the human anion/proton exchanger ClC-4.
    Alekov AK, Fahlke C., Free PMC Article

    		01/21/2010
    crystal structure: CLIC4 appears to be able to form a redox-regulated ion channel in the absence of any partner proteins

    Crystal structure of the soluble form of the redox-regulated chloride ion channel protein CLIC4.
    Littler DR, Assaad NN, Harrop SJ, Brown LJ, Pankhurst GJ, Luciani P, Aguilar MI, Mazzanti M, Berryman MA, Breit SN, Curmi PM.

    		01/21/2010
    ClC-4 is an intracellular chloride channel that stimulates copper incorporation into ceruloplasmin, probably by improving the efficiency of the ATP7B copper pump.

    Involvement of chloride channels in hepatic copper metabolism: ClC-4 promotes copper incorporation into ceruloplasmin.
    Wang T, Weinman SA.

    		01/21/2010
    A stretch of amino acids, residues 14-63, at the N-terminus constitutes a novel motif both necessary and sufficient for targeting hClC-4 and other membrane proteins to the endoplasmic reticulum.

    The human ClC-4 protein, a member of the CLC chloride channel/transporter family, is localized to the endoplasmic reticulum by its N-terminus.
    Okkenhaug H, Weylandt KH, Carmena D, Wells DJ, Higgins CF, Sardini A.

    		01/21/2010
    coupled Cl-/H+ transport of ClC-4 and ClC-5 is of significant magnitude in vivo

    Chloride/proton antiporter activity of mammalian CLC proteins ClC-4 and ClC-5.
    Picollo A, Pusch M.

    		01/21/2010
    Vesicle acidification, exocytosis, endocytosis, and secretory pathway.

    Identification of an acid-activated Cl(-) channel from human skeletal muscles.
    Kawasaki M, Fukuma T, Yamauchi K, Sakamoto H, Marumo F, Sasaki S.

    		02/20/2001
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