Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
about
Voltage-Controlled Enzymes: The New JanusBifronsPrinciples of conduction and hydrophobic gating in K+ channelsThe hitchhiker's guide to the voltage-gated sodium channel galaxyStructure of the full-length TRPV2 channel by cryo-EM.Real-time visualization of conformational changes within single MloK1 cyclic nucleotide-modulated channels.Structural and Energetic Analysis of Activation by a Cyclic Nucleotide Binding DomainSolution structure of the Mesorhizobium loti K1 channel cyclic nucleotide-binding domain in complex with cAMPSolution Structure and Phospholipid Interactions of the Isolated Voltage-Sensor Domain from KvAPMechanistic Insight into Human ether-a-go-go-related Gene (hERG) K+ Channel Deactivation Gating from the Solution Structure of the EAG DomainStructural insights into conformational changes of a cyclic nucleotide-binding domain in solution from Mesorhizobium loti K1 channelStructure of a bacterial voltage-gated sodium channel pore reveals mechanisms of opening and closingCrystal Structure of a Voltage-gated K+ Channel Pore Module in a Closed State in Lipid MembranesLigand-induced structural changes in the cyclic nucleotide-modulated potassium channel MloK1.Determinants of ligand selectivity in a cyclic nucleotide–regulated potassium channelStructure of the voltage-gated two-pore channel TPC1 from Arabidopsis thalianaStructure, inhibition and regulation of two-pore channel TPC1 from Arabidopsis thalianaTwo separate interfaces between the voltage sensor and pore are required for the function of voltage-dependent K(+) channelsStructure, dynamics and implied gating mechanism of a human cyclic nucleotide-gated channelImplications of Human Transient Receptor Potential Melastatin 8 (TRPM8) Channel Gating from Menthol Binding Studies of the Sensing DomainCombining electron crystallography and X-ray crystallography to study the MlotiK1 cyclic nucleotide-regulated potassium channelSymmetry-restrained molecular dynamics simulations improve homology models of potassium channelsStructures of membrane proteins.Structural correlates of selectivity and inactivation in potassium channels.Working model for the structural basis for KCNE1 modulation of the KCNQ1 potassium channel.Analysis of the selectivity filter of the voltage-gated sodium channel Na(v)RhStructure of the BK potassium channel in a lipid membrane from electron cryomicroscopy.An aqueous H+ permeation pathway in the voltage-gated proton channel Hv1.Family of prokaryote cyclic nucleotide-modulated ion channelsThe activated state of a sodium channel voltage sensor in a membrane environmentCalculation of the gating charge for the Kv1.2 voltage-activated potassium channelDown-state model of the voltage-sensing domain of a potassium channel.Synchrotron radiation circular dichroism spectroscopy-defined structure of the C-terminal domain of NaChBac and its role in channel assembly.BK channel activation: structural and functional insightsProbing α-3(10) transitions in a voltage-sensing S4 helix3(10) helices in channels and other membrane proteinsIn search of a consensus model of the resting state of a voltage-sensing domainCapturing distinct KCNQ2 channel resting states by metal ion bridges in the voltage-sensor domain.3₁₀-helix conformation facilitates the transition of a voltage sensor S4 segment toward the down state.Simplified bacterial "pore" channel provides insight into the assembly, stability, and structure of sodium channels.Functional extension of amino acid triads from the fourth transmembrane segment (S4) into its external linker in Shaker K(+) channels.
P2860
Q21129281-06394250-ED68-479B-944B-ECD2C3988453Q24600608-617A7DA3-632D-4FA7-A493-B2F3C5438E5DQ26771787-8AEEDD2B-8A3B-4A95-A8CF-42AD8E749541Q27321594-67F1A661-C137-4500-B959-224D5A3D8BE5Q27325768-3DE72A0E-AA83-454C-9382-7E6128229CEFQ27651137-1302FD6A-4ED9-4607-9FBA-1296948AA340Q27655598-68C7102B-E834-4FC9-AAE0-90EE1CDD6403Q27664582-187A24C2-3783-4304-B077-2D94D3697DB8Q27666202-0A0BEECA-FEB6-40E6-ADC0-0392F24565AEQ27667315-7134616B-A02E-427E-85BD-0A91F48A7D6FQ27674040-3FB98EB0-F3BC-4DAD-A022-A58949AE230CQ27674713-5E5E5B2D-8F42-4160-A48F-A93D3EAECD50Q27681473-D89678A7-36B7-4871-814D-8AB322D26508Q27684499-67F5E84B-38EB-452D-937A-2DE86DC354E8Q28271341-0EAF4ACA-B228-4575-A9AE-C56539C9B306Q28274013-D6F6170D-BBAF-40C5-8B38-B5F18F4D05D6Q28474961-E6205AA9-927F-4C9B-BA0C-15A5A39AC5A9Q28542474-380BFBEE-5CDB-4E6B-AD0D-86496982269FQ28834356-EE8F84DB-3789-4450-A6C7-2EEEB92EA5B0Q30378332-88CAE391-94E4-420C-8E0D-32718F9CF0E1Q30382391-1FB2AA6C-77E3-4BCC-A25F-77A30B767150Q30391943-B57BC860-3012-4F7B-A7A2-EB22065BA488Q30407608-A77CAC49-32B4-44A2-88E0-EBCFC2FBD5EEQ30499333-71C4509A-7123-41E1-8176-896EF1E0B021Q30537167-15201F32-697D-4AC4-829C-1D1485101583Q33498356-EF10DFAD-0548-411D-9B97-C886C54F20B8Q33674027-AA561176-E5AE-45D2-A103-8750814D029EQ33694543-3AC646CB-1F68-4D54-8A94-746BC3565D31Q33778016-DC167462-3971-439F-BD15-114873962651Q33858393-8C99FF57-487B-462D-972E-0F5DEC9573D4Q33908309-C57F90D7-6B50-473A-8CCD-8EBDE532B0A6Q34069789-0700F686-65FE-44E2-B567-2E81DD8A41ADQ34088616-9FBF6428-647A-4113-AE16-81B9AD412711Q34144077-A0094C8E-FAEA-4A3A-9282-3589D53365F2Q34152313-7EEF240B-61BC-40FE-BA56-88114214E2ACQ34239280-876ADD87-1283-4017-B461-267B8BE5C8F6Q34566675-21ADEEC2-F635-4AA5-9790-9787A96EC143Q34688789-277AAD32-5FD6-41B5-8CD2-EC4D92421F42Q34963683-1B7F73BE-9562-4699-A758-8C9E06E521EEQ35423838-86F26F1D-14F8-4D14-825B-14ACFBD865CC
P2860
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
description
2008 nî lūn-bûn
@nan
2008 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@ast
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@en
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@nl
type
label
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@ast
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@en
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@nl
prefLabel
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@ast
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@en
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@nl
P2093
P2860
P3181
P356
P1476
Structure of the transmembrane regions of a bacterial cyclic nucleotide-regulated channel
@en
P2093
Gina M Clayton
Lise Heginbotham
Steve Altieri
Vinzenz M Unger
P2860
P304
P3181
P356
10.1073/PNAS.0711533105
P407
P577
2008-01-23T00:00:00Z