Investigating the putative glycine hinge in Shaker potassium channel. - Wikidata - wikimedia - TriplyDB

Investigating the putative glycine hinge in Shaker potassium channel.

Investigating the putative glycine hinge in Shaker potassium channel.

http://www.wikidata.org/entity/Q36493535

about

High-resolution structure of the open NaK channel Helical distortion in tryptophan- and lysine-anchored membrane-spanning alpha-helices as a function of hydrophobic mismatch: a solid-state deuterium NMR investigation using the geometric analysis of labeled alanines method Comparative study of the gating motif and C-type inactivation in prokaryotic voltage-gated sodium channels.Characterization and functional restoration of a potassium channel Kir6.2 pore mutation identified in congenital hyperinsulinism Identification of BERP (brain-expressed RING finger protein) as a p53 target gene that modulates seizure susceptibility through interacting with GABA(A) receptors.Quantitative analysis of cell surface membrane proteins using membrane-impermeable chemical probe coupled with 18O labeling.Role of conserved glycines in pH gating of Kir1.1 (ROMK)Molecular characterization of the inositol 1,4,5-trisphosphate receptor pore-forming segment.New roles for a key glycine and its neighboring residue in potassium channel gating.Conservation analysis of residues in the S4-S5 linker and the terminal part of the S5-P-S6 pore modulus in Kv and HCN channels: flexible determinants for the electromechanical coupling.Channel Gating Dependence on Pore Lining Helix Glycine Residues in Skeletal Muscle Ryanodine Receptor Coupling between the voltage-sensing and pore domains in a voltage-gated potassium channel.Coupling of voltage-sensors to the channel pore: a comparative view A helix-breaking mutation in TRPML3 leads to constitutive activity underlying deafness in the varitint-waddler mouse.Molecular template for a voltage sensor in a novel K+ channel. I. Identification and functional characterization of KvLm, a voltage-gated K+ channel from Listeria monocytogenes.Zinc modulation of water permeability reveals that aquaporin 0 functions as a cooperative tetramer.The cytosolic GH loop regulates the phosphatidylinositol 4,5-bisphosphate-induced gating kinetics of Kir2 channels.Structure and anticipatory movements of the S6 gate in Kv channels Regulation of AQP0 water permeability is enhanced by cooperativity.PIP Water Transport and Its pH Dependence Are Regulated by Tetramer Stoichiometry.End-point targeted molecular dynamics: large-scale conformational changes in potassium channels.Voltage-dependent C-type inactivation in a constitutively open K+ channel Direct analysis of cooperativity in multisubunit allosteric proteins.On the origin of large flexibility of P-glycoprotein in the inward-facing state Molecular template for a voltage sensor in a novel K+ channel. III. Functional reconstitution of a sensorless pore module from a prokaryotic Kv channel Voltage- and [ATP]-dependent gating of the P2X(2) ATP receptor channel.K+ channel modulators for the treatment of neurological disorders and autoimmune diseases Molecular mechanisms of BK channel activation.Dynamic aspects of functional regulation of the ATP receptor channel P2X2.The gates of ion channels and enzymes.Being flexible: the voltage-controllable activation gate of kv channels.De novo KCNH1 mutations in four patients with syndromic developmental delay, hypotonia and seizures.Side chain flexibility and coupling between the S4-S5 linker and the TRP domain in thermo-sensitive TRP channels: Insights from protein modeling.On the simple random-walk models of ion-channel gate dynamics reflecting long-term memory.A Kv channel with an altered activation gate sequence displays both "fast" and "slow" activation kinetics.Participation of the Lys313-Ile333 sequence of the purinergic P2X4 receptor in agonist binding and transduction of signals to the channel gate.A conserved mechanism for gating in an ionotropic glutamate receptor Modelling insecticide-binding sites in the voltage-gated sodium channel.Desensitization of chemical activation by auxiliary subunits: convergence of molecular determinants critical for augmenting KCNQ1 potassium channels.Non-equivalent role of TM2 gating hinges in heteromeric Kir4.1/Kir5.1 potassium channels.

P2860

Q27653201-E29E4201-E04A-4F6A-9BF0-80170B5DB9F9 Q31126703-D2173FA1-2E9E-4240-ACA7-2614E1FBDC7D Q33662041-248E088E-892F-4ED6-8DFF-9413DF07ACFC Q33673386-6F9C8DE8-3105-4F80-9AC6-C8F0F2764B2C Q33977803-2BF2A8A3-69F8-42F9-B123-BA8D41399DDA Q34052823-13B0B0CF-BF5A-4EC8-A1C2-AA305767ACCD Q34546935-D3533B58-5218-4629-A231-C1E70B697B70 Q34715202-CEB63D2B-537F-444B-A487-5C3509D7D25D Q35052008-17BA869E-00EF-475F-92D5-9984780798F0 Q35422054-77937772-8070-4C91-A44E-B3FCB99FB226 Q35837216-88F1FB88-18E7-4EA8-A700-F6A47AF73693 Q36070158-CDEDF821-7781-466B-A345-4351576E4F4D Q36121859-3D03A767-29AE-4BC9-BE84-BA800F61B6D2 Q36288732-E69A3ADE-BF1E-4B13-A0A1-4AF4BFA857DC Q36295803-B7A9BD36-DA17-491D-BBA6-762FC3BDD0A3 Q36296132-F148EBF1-AF54-4A80-8407-A2F678C2B9C2 Q36452026-0CE56715-F372-485F-A0FC-670828C200F2 Q36493622-F03119B1-4834-47F4-8613-638D8B930678 Q36636634-8B2DAEDC-B018-434F-B94E-1A375EA78E5B Q36753664-D4DE632E-D428-4374-987C-5724A013540B Q36785203-F5D63BEE-DC3E-4203-A915-231519047FAF Q36856367-8D88D422-5303-47FC-BC8C-0BEFBA346498 Q36954562-CBDC5670-FFF2-4A0D-BBBA-85A98E05AA79 Q36967408-49A057C3-0357-48FA-BFCB-1A48A68C9F60 Q36980027-C0560E15-6E4E-43CE-9566-BC688B01A7D5 Q37023269-EB2F7730-ADF1-4891-95FB-C5DF947F004C Q37162392-35B836BF-BF1C-4061-8B0E-6510C7685193 Q37223668-1DA2B1BB-FA81-4EBB-A949-24F4755C0A72 Q37596780-C22E67BC-0DAA-43D7-83DE-AFAC1E19F276 Q37635486-502ADA96-6151-4980-A7F0-4FB6632D42A5 Q38044898-FC7F0E35-D205-4C51-BE62-6B68B65A02B0 Q38714406-76D7EAAB-915B-4575-A98B-12C4699C0CD0 Q39032562-B71406B5-B6C0-404A-86AF-E4B5122AFB9A Q39367774-6A445442-53E6-4E0D-918C-FC2B83AF23A2 Q39995529-69B24782-6F97-4B57-9B14-80F1DFCAE125 Q40235376-B0EDF4AC-EE73-4A82-9909-5BC7E5485694 Q41469223-E66835D2-F133-47E8-97DF-FC658513AF08 Q41879557-71864523-75A2-445F-9130-6F147084E60A Q41988367-4947F74D-67B6-4DE8-9410-4A5C1EE92802 Q42046369-4CA99042-7D4E-4FDC-972E-DF9C1BA36424

P2860

Investigating the putative glycine hinge in Shaker potassium channel.

http://www.wikidata.org/entity/Q36493535

description

2005 nî lūn-bûn

@nan

2005年の論文

@ja

2005年学术文章

@wuu

2005年学术文章

@zh-cn

2005年学术文章

@zh-hans

2005年学术文章

@zh-my

2005年学术文章

@zh-sg

2005年學術文章

@yue

2005年學術文章

@zh

2005年學術文章

@zh-hant

name

Investigating the putative glycine hinge in Shaker potassium channel.

@ast

Investigating the putative glycine hinge in Shaker potassium channel.

@en

type

label

Investigating the putative glycine hinge in Shaker potassium channel.

@ast

Investigating the putative glycine hinge in Shaker potassium channel.

@en

prefLabel

Investigating the putative glycine hinge in Shaker potassium channel.

@ast

Investigating the putative glycine hinge in Shaker potassium channel.

@en

P1433

Q36493535-3D14A881-F583-4768-BA3E-5CB91778D2D2

P1476

Q36493535-D77D8B88-9CC5-4424-A340-3A4CCF35362F

P2093

Q36493535-524DB89C-0441-4FD0-93FB-5BAC82E8A651

Q36493535-B18C8076-CE05-4EE8-8CB1-FBF2AB66EED3

Q36493535-F6BDA5A5-A171-48AA-9BB8-6B58E17CF1FD

P2860

Q36493535-00D3044C-7AC5-47C0-B2DB-F604B1B2A39A

Q36493535-0296CC07-8739-461C-A10A-2CD8BC8BA30D

Q36493535-04EEF6E2-A133-4A68-B5AB-05D34A38F6A8

Q36493535-119AE9E4-817C-4B77-B23A-15903E753799

Q36493535-19748022-FEC2-407A-B0C8-8F317A8460C5

Q36493535-1995DCCF-92F5-485C-BE1B-3C98634D6698

Q36493535-26E4067F-2D5A-4270-92E4-0D122EDEA656

Q36493535-2855FAFD-41D3-4B7C-B562-7642C4E0467C

Q36493535-3B6E5C4A-D63E-4C68-BF46-C7C3DB86828A

Q36493535-42211823-68ED-43C3-AB77-867C6C43A704

P304

Q36493535-609B7992-C372-41FE-BF55-693820032F41

P31

Q36493535-C5EE4C17-DEA7-4D72-9887-92B68B97937D

P356

Q36493535-D5D70975-DD3D-475B-8ED0-2BB13F5C4911

P433

Q36493535-9E2AE619-B5DB-4734-8E4F-E41A77604B1E

P478

Q36493535-55F69ED4-D92E-4873-90EE-2FDCCB6855E7

P50

Q36493535-6B08DD0C-30F9-48E4-8146-5715C18D5521

P577

Q36493535-EAF3A7BD-44CA-45D5-95F7-C14C869E0722

P5875

Q36493535-B594988A-DC10-4342-9315-30099A064CCD

P698

Q36493535-F54ADED0-E1CF-4F6F-A16E-E3CB3057CDB6

P932

Q36493535-285BEDBF-8AD3-4DEF-9845-4921033E8369

P356

P1433

The Journal of General Physiology

P1476

Investigating the putative glycine hinge in Shaker potassium channel

@en

P2093

Lindsey Ingleby

http://www.w3.org/2001/XMLSchema#string

Richard Horn

http://www.w3.org/2001/XMLSchema#string

Shinghua Ding

http://www.w3.org/2001/XMLSchema#string

P2860

The Structure of the Potassium Channel: Molecular Basis of K+ Conduction and Selectivity

X-ray structure of a voltage-dependent K+ channel

The voltage-gated potassium channels and their relatives

Chemistry of ion coordination and hydration revealed by a K+ channel-Fab complex at 2.0 A resolution

Crystal structure of rhodopsin: A G protein-coupled receptor

Potassium channel receptor site for the inactivation gate and quaternary amine inhibitors

Structure of the KcsA channel intracellular gate in the open state

Crystal structure and mechanism of a calcium-gated potassium channel

Crystal structure of the potassium channel KirBac1.1 in the closed state

Structure and mechanism of the lactose permease of Escherichia coli

P304

213-226

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1085/JGP.200509287

http://www.w3.org/2001/XMLSchema#string

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

126

http://www.w3.org/2001/XMLSchema#string

P50

Christopher A Ahern

P577

2005-08-15T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

7657920

http://www.w3.org/2001/XMLSchema#string

P698

16103276

http://www.w3.org/2001/XMLSchema#string

P932

2266578

http://www.w3.org/2001/XMLSchema#string