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Items: 1 to 20 of 39

1.

Endosomal chloride-proton exchange rather than chloride conductance is crucial for renal endocytosis.

Novarino G, Weinert S, Rickheit G, Jentsch TJ.

Science. 2010 Jun 11;328(5984):1398-401. doi: 10.1126/science.1188070. Epub 2010 Apr 29.

2.

The ClC-5 chloride channel knock-out mouse - an animal model for Dent's disease.

Günther W, Piwon N, Jentsch TJ.

Pflugers Arch. 2003 Jan;445(4):456-62. Epub 2002 Nov 29. Review.

PMID:
12548389
3.

ClC-5: a chloride channel with multiple roles in renal tubular albumin uptake.

Hryciw DH, Ekberg J, Pollock CA, Poronnik P.

Int J Biochem Cell Biol. 2006;38(7):1036-42. Epub 2005 Oct 3. Review.

PMID:
16226913
4.

Chloride channels and endocytosis: new insights from Dent's disease and CLC-5 knockout mice.

Devuyst O.

Bull Mem Acad R Med Belg. 2004;159(Pt 2):212-7. Review.

PMID:
15615095
5.

Chloride transporters and receptor-mediated endocytosis in the renal proximal tubule.

Devuyst O, Luciani A.

J Physiol. 2015 Sep 15;593(18):4151-64. doi: 10.1113/JP270087. Epub 2015 May 11. Review.

6.

Physiological roles of CLC Cl(-)/H (+) exchangers in renal proximal tubules.

Plans V, Rickheit G, Jentsch TJ.

Pflugers Arch. 2009 May;458(1):23-37. doi: 10.1007/s00424-008-0597-z. Epub 2008 Oct 14. Review.

PMID:
18853181
7.

Physiological importance of endosomal acidification: potential role in proximal tubulopathies.

Marshansky V, Ausiello DA, Brown D.

Curr Opin Nephrol Hypertens. 2002 Sep;11(5):527-37. Review.

PMID:
12187318
8.

Chloride channels and endocytosis: new insights from Dent's disease and ClC-5 knockout mice.

Devuyst O, Jouret F, Auzanneau C, Courtoy PJ.

Nephron Physiol. 2005;99(3):p69-73. Review.

9.

ClC transporters: discoveries and challenges in defining the mechanisms underlying function and regulation of ClC-5.

Wellhauser L, D'Antonio C, Bear CE.

Pflugers Arch. 2010 Jul;460(2):543-57. doi: 10.1007/s00424-009-0769-5. Epub 2010 Jan 5. Review.

PMID:
20049483
10.

ClC-5: Physiological role and biophysical mechanisms.

Pusch M, Zifarelli G.

Cell Calcium. 2015 Jul;58(1):57-66. doi: 10.1016/j.ceca.2014.09.007. Epub 2014 Nov 13. Review.

PMID:
25443653
11.

Receptor-mediated endocytosis in kidney proximal tubules: recent advances and hypothesis.

Marshansky V, Bourgoin S, Londoño I, Bendayan M, Maranda B, Vinay P.

Electrophoresis. 1997 Dec;18(14):2661-76. Review.

PMID:
9580051
12.

[Dent's disease: hereditary nephrolithiasis related to defective tubular endocytosis processes].

Tosetto E, Anglani F, Graziotto R, Citron L, D'Angelo A, Gambaro G.

G Ital Nefrol. 2003 Nov-Dec;20(6):578-88. Review. Italian.

PMID:
14732909
13.

Cell biology and physiology of CLC chloride channels and transporters.

Stauber T, Weinert S, Jentsch TJ.

Compr Physiol. 2012 Jul;2(3):1701-44. doi: 10.1002/cphy.c110038. Review.

PMID:
23723021
14.

Functional coupling of V-ATPase and CLC-5.

Satoh N, Suzuki M, Nakamura M, Suzuki A, Horita S, Seki G, Moriya K.

World J Nephrol. 2017 Jan 6;6(1):14-20. doi: 10.5527/wjn.v6.i1.14. Review.

15.

In vivo role of CLC chloride channels in the kidney.

Uchida S.

Am J Physiol Renal Physiol. 2000 Nov;279(5):F802-8. Review.

16.

Dent's disease--a nephrolithiasis disorder associated with defective receptor-mediated endocytosis.

Thakker R.

Bull Mem Acad R Med Belg. 2004;159(Pt 2):199-211. Review.

PMID:
15615094
17.

[Function of the CLC chloride channels and their implication in human pathology].

Vandewalle A.

Nephrologie. 2002;23(3):113-8. Review. French.

PMID:
12087807
18.

Chloride channels in renal disease.

Thakker RV.

Adv Nephrol Necker Hosp. 1999;29:289-98. Review.

PMID:
10561751
19.

CLC chloride channels and transporters: from genes to protein structure, pathology and physiology.

Jentsch TJ.

Crit Rev Biochem Mol Biol. 2008 Jan-Feb;43(1):3-36. doi: 10.1080/10409230701829110 . Review.

PMID:
18307107
20.

[Various functions of ClC-type Cl- channels].

Furukawa T.

Nihon Yakurigaku Zasshi. 2003 Nov;122(5):375-83. Review. Japanese.

PMID:
14569156

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