about
Diversity of Cl(-) channelsThe ALMT Family of Organic Acid Transporters in Plants and Their Involvement in Detoxification and Nutrient SecurityMolecular physiology of bestrophins: multifunctional membrane proteins linked to best disease and other retinopathiesMyotonia congenita mutation enhances the degradation of human CLC-1 chloride channelsThe Origin of Coupled Chloride and Proton Transport in a Cl(-)/H(+) AntiporterModeling and simulation of ion channels.The Concise Guide to PHARMACOLOGY 2013/14: ion channelsIdentification of a proton-chloride antiporter (EriC) by Himar1 transposon mutagenesis in Lactobacillus reuteri and its role in histamine production.Accessibility of the CLC-0 pore to charged methanethiosulfonate reagents.Antiport mechanism for Cl(-)/H(+) in ClC-ec1 from normal-mode analysis.The discovery of slowness: low-capacity transport and slow anion channel gating by the glutamate transporter EAAT5.A three-state multi-ion kinetic model for conduction properties of ClC-0 chloride channel.Tonoplast-located GmCLC1 and GmNHX1 from soybean enhance NaCl tolerance in transgenic bright yellow (BY)-2 cells.Binding of ATP to the CBS domains in the C-terminal region of CLC-1.Anion currents in yeast K+ transporters (TRK) characterize a structural homologue of ligand-gated ion channels.Physiology and pathophysiology of CLC-1: mechanisms of a chloride channel disease, myotoniaMolecular dynamics investigation of Cl- and water transport through a eukaryotic CLC transporter.Influences of mutations on the electrostatic binding free energies of chloride ions in Escherichia coli ClC.Roles of K149, G352, and H401 in the channel functions of ClC-0: testing the predictions from theoretical calculations.The mechanism of fast-gate opening in ClC-0.Modulation of the slow/common gating of CLC channels by intracellular cadmium.Dominantly inherited myotonia congenita resulting from a mutation that increases open probability of the muscle chloride channel CLC-1ClC chloride channels viewed through a transporter lens.Cysteine accessibility in ClC-0 supports conservation of the ClC intracellular vestibuleComputationally Efficient Multiscale Reactive Molecular Dynamics to Describe Amino Acid Deprotonation in Proteins.Revealing an outward-facing open conformational state in a CLC Cl(-)/H(+) exchange transporterMolecular characterization of V59E NIS, a Na+/I- symporter mutant that causes congenital I- transport defect.Intracellular proton regulation of ClC-0Multiscale Simulations Reveal Key Aspects of the Proton Transport Mechanism in the ClC-ec1 Antiporter.Identification of ClC-2 and CIC-K2 chloride channels in cultured rat type IV spiral ligament fibrocytes.Lubiprostone: a novel treatment for chronic constipation.The CLC 'chloride channel' family: revelations from prokaryotes.The ClC-0 chloride channel is a 'broken' Cl-/H+ antiporterCLC-0 and CFTR: chloride channels evolved from transporters.Dual regulation of the native ClC-K2 chloride channel in the distal nephron by voltage and pHDefective organellar acidification as a cause of cystic fibrosis lung disease: reexamination of a recurring hypothesis.Review. Proton-coupled gating in chloride channelsFreshwater fish gill ion transport: August Krogh to morpholinos and microprobes.ClC-K chloride channels: emerging pathophysiology of Bartter syndrome type 3.Large-scale collection and annotation of full-length enriched cDNAs from a model halophyte, Thellungiella halophila.
P2860
Q24642246-20A542D8-FE26-40F3-BE45-49BA1F149427Q28072019-842956FD-5123-4FF3-99E1-FF8B03224564Q28275211-F1415698-56CC-44A0-8545-B90E06E04EB8Q28486132-695CF7C5-EEFB-492C-8D75-76F467142E27Q28821139-66F95BF6-B32C-48FE-91FD-2AD00271657DQ30443341-0FA1843E-F1D3-4318-89A0-21245034D691Q30486735-5E71D756-2CDF-4332-A1F3-0C844163E593Q33570273-AF0BABE2-1DF7-4576-991D-B03C45E9CC03Q33622029-46568B67-8709-4008-8732-1FB51C3D6525Q33767749-9F076E80-8B4B-4972-B31A-E5471731D320Q33922825-07650F4E-4223-43CD-B72C-8133ADB6A9EBQ33999423-1D745D30-09DC-478A-844F-24509E868E5DQ34578700-A69AA367-CF28-4B28-822B-F427305ADF4CQ34744998-26DEEC48-86D9-4795-9C1D-DA645E2E9182Q35150440-EC731AF7-9546-49BF-B094-7E5C80A1163CQ35610491-36D21B7E-ED8D-45E6-8397-B7C6070DDB56Q35843488-C223237A-50EB-41B3-B732-63AC14DE1B5DQ36138346-08657DA6-7D70-4DB1-B240-7F81E16AA8C2Q36295647-19507F54-F1D0-4FA0-8935-E9C4FAE17BF7Q36296098-2E605027-A702-4566-A19B-72393C046949Q36333197-F6B5A356-F85F-4330-9EF9-A29EDCDF23D3Q36428423-4BDCF621-AFB9-4916-B60F-6F939B48CD11Q36428974-A1AEA512-691D-48B1-81A1-A7D53F6DF9A7Q36445978-685B069A-685D-4AFA-8BDC-5C9E6D879EB5Q36569958-1E014181-AB56-4C99-91F7-4599AFB098EDQ36624584-B5284E42-FAB8-4620-BBCB-7B08DFFAA158Q36692045-A1B38AFC-ECDB-4AF4-9AE5-4EDF15652CEBQ36741175-FE21739B-1F77-44A9-A08B-246310C04ADFQ36753772-26B89361-EC5A-44C0-B272-CF92E874AE46Q36881551-E960CE80-48FF-44D9-9E59-674D50C7ECBDQ36897461-FFF38DF9-B2CF-489F-8347-A1B49C5D6A57Q36915225-C28F52DD-D592-46EB-85DE-F39E974E182BQ36919854-9169AF5F-A5E8-4E63-B45F-5ACBD977DAA4Q37129332-E753A8D1-74B0-4E44-9E89-3357BE7A6F9DQ37216170-24B4585C-5D32-4B2B-A719-657B99204883Q37217993-FBD2AEB6-AF4C-460E-BC93-4365BA9DD439Q37310620-8E4C9116-10DE-4BC1-B315-7F143084F5FEQ37793331-C3BB0222-ED72-4E83-84C2-737189F79725Q38391564-9C0A1C67-209B-4AD1-8A2B-8CE06F50321AQ38511773-2E14EF9C-8574-4F22-B4DA-58C613451B8A
P2860
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Structure and function of clc channels.
@ast
Structure and function of clc channels.
@en
type
label
Structure and function of clc channels.
@ast
Structure and function of clc channels.
@en
prefLabel
Structure and function of clc channels.
@ast
Structure and function of clc channels.
@en
P1476
Structure and function of clc channels.
@en
P2093
Tsung-Yu Chen
P304
P356
10.1146/ANNUREV.PHYSIOL.67.032003.153012
P577
2005-01-01T00:00:00Z