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ClC-5 Cl--channel disruption impairs endocytosis in a mouse model for Dent's disease; 6810 [Score: 100%]
Author / Editor: Piwon, Nils; Jentsch, Thomas J. |  Place of publication: London |  Publisher: Nature Publishing Group |  Year of Publication: 2000 | 5 s.
Journal / Series / Collection: Nature; 408
Subject Area: Biologie; Medizin
Gating of the voltage-dependent chloride channel ClC-0 by the permeant anion; 6514 [Score: 100%]
Author / Editor: Pusch, Michael; Jentsch, Thomas J. |  Place of publication: London |  Publisher: Nature Publishing Group |  Year of Publication: 1995 | 5 s.
Journal / Series / Collection: Nature; 373
Subject Area: Biologie
Primary structure of Torpedo marmorata chloride channel isolated by expression cloning in Xenopus oocytes; 6301 [Score: 100%]
Author / Editor: Jentsch, Thomas J.; Steinmeyer, Klaus; Schwarz, Gisela |  Place of publication: London |  Publisher: Nature Publishing Group |  Year of Publication: 1990 | 5 s.
Journal / Series / Collection: Nature; 348
Subject Area: Biologie
Voltage-dependent electrogenic chloride/proton exchange by endosomal CLC proteins; 7049 [Score: 100%]
Author / Editor: Scheel, Olaf; Jentsch, Thomas J. |  Place of publication: London |  Publisher: Nature Publishing Group |  Year of Publication: 2005 | 4 s.
Journal / Series / Collection: Nature; 436
Subject Area: Biologie
ClC-7 requires Ostm1 as a beta-subunit to support bone resorption and lysosomal function; 7081 [Score: 100%]
Author / Editor: Lange, Philipp; Jentsch, Thomas J. |  Place of publication: London |  Publisher: Nature Publishing Group |  Year of Publication: 2006 | 4 s.
Journal / Series / Collection: Nature; 440
Subject Area: Biologie; Chemie und Pharmazie; Physik
[External link] Loss of the ClC-7 chloride channel leads to osteopetrosis in mice and man [Score: 100%]
Author / Editor: Kornak, Uwe; Jentsch, Thomas J. |  Place of publication: Cambridge, Mass. |  Publisher: Cell Press |  Year of Publication: 2001
Journal / Series / Collection: Cell; 104
Subject Area: Biologie; Medizin
[External link] KCNQ4, a novel potassium channel expressed in sensory outer hair cells, is mutated in dominant deafness [Score: 100%]
Author / Editor: Kubisch, Christian; Jentsch, Thomas J. |  Place of publication: Cambridge, Mass. |  Publisher: Cell Press |  Year of Publication: 1999
Journal / Series / Collection: Cell; 96
Subject Area: Biologie
[External link] Disruption of KCC2 reveals an essential role of K-Cl cotransport already in early synaptic inhibition; 2 [Score: 100%]
Author / Editor: Hübner, Christian A.; Jentsch, Thomas J. |  Place of publication: Cambridge, Mass. [u.a.] |  Publisher: Cell Press |  Year of Publication: 2001
Journal / Series / Collection: Neuron; 30
Subject Area: Biologie; Chemie und Pharmazie