Light-driven Na(+) pump from Gillisia limnaea: a high-affinity Na(+) binding site is formed transiently in the photocycle.
about
Ion-pumping microbial rhodopsinsCrystal structure of a light-driven sodium pumpPredicting Species-Resolved Macronutrient Acquisition during Succession in a Model Phototrophic Biofilm Using an Integrated 'Omics Approach.Eukaryotic G protein-coupled receptors as descendants of prokaryotic sodium-translocating rhodopsins.Diversity and functional analysis of light-driven pumping rhodopsins in marine FlavobacteriaIn Vitro Demonstration of Dual Light-Driven Na⁺/H⁺ Pumping by a Microbial Rhodopsin.Cation-Specific Conformations in a Dual-Function Ion-Pumping Microbial RhodopsinReal-time kinetics of electrogenic Na(+) transport by rhodopsin from the marine flavobacterium Dokdonia sp. PRO95.Functional characterization of sodium-pumping rhodopsins with different pumping properties.The light-driven sodium ion pump: A new player in rhodopsin research.Microbial Rhodopsins: Diversity, Mechanisms, and Optogenetic Applications.Asymmetric Functional Conversion of Eubacterial Light-driven Ion Pumps.The Role of the NDQ Motif in Sodium-Pumping Rhodopsins.Bacteriorhodopsin-like channelrhodopsins: Alternative mechanism for control of cation conductance.Functional Expression of Gloeobacter Rhodopsin in Synechocystis sp. PCC6803.A single mutation converts bacterial Na(+) -transporting rhodopsin into an H(+) transporter.Structure of the light-driven sodium pump KR2 and its implications for optogenetics.Electrical properties, substrate specificity and optogenetic potential of the engineered light-driven sodium pump eKR2.Light-induced structural changes during early photo-intermediates of the eubacterial Cl− pump Fulvimarina rhodopsin observed by FTIR difference spectroscopy
P2860
Q26781037-06D6E608-3824-4840-B4F7-8A8116481AC9Q27700101-4948D074-DA0F-4746-8CE5-FF7E5F281BC9Q33789992-08799C14-B0AF-4A98-A92C-7C3737788978Q35809744-1686F590-A0B9-4D11-B48A-22036FAF971AQ35867914-D76854AB-FE4E-4A4D-91CA-4E8F005C5C94Q36146781-7A194345-4B1A-4BB4-84F5-817BA304B95AQ36598419-E7EBB5CF-0DE0-4E36-AC16-57DD92887B7BQ38364475-941E625C-4BBB-49B5-A268-31A6C12E4816Q38657558-18D87684-CDAB-40B0-AD8E-6326D0CE30ACQ38794001-27883E0E-82AB-4472-A278-3C607177967DQ39182126-7E1FDCA1-FDD1-426C-80B9-9D95CEA24C96Q41099678-C44230AB-3732-4951-8BA4-847BE970710CQ42060123-EA3B8EE0-D28B-4E8D-A1FA-798BA36A8015Q50097693-8CE3A059-90A4-46AB-9ED6-9FBC6560D8ACQ50174952-0CB9D615-CB6F-4782-A3AE-0546204EEE7DQ51624058-748FF2B4-71D5-4402-9BD7-BDE1F88160CDQ51659399-32009F67-D45F-4F72-939B-0AE4DE6554FAQ55311972-1AABCAE1-D783-4667-9050-D05D51241813Q57444449-FBCE4C82-225C-43A6-8E3B-BCB856F00AE1
P2860
Light-driven Na(+) pump from Gillisia limnaea: a high-affinity Na(+) binding site is formed transiently in the photocycle.
description
2014 nî lūn-bûn
@nan
2014 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
Light-driven Na(+) pump from G ...... transiently in the photocycle.
@ast
Light-driven Na(+) pump from G ...... transiently in the photocycle.
@en
type
label
Light-driven Na(+) pump from G ...... transiently in the photocycle.
@ast
Light-driven Na(+) pump from G ...... transiently in the photocycle.
@en
prefLabel
Light-driven Na(+) pump from G ...... transiently in the photocycle.
@ast
Light-driven Na(+) pump from G ...... transiently in the photocycle.
@en
P2093
P2860
P356
P1433
P1476
Light-driven Na(+) pump from G ...... transiently in the photocycle.
@en
P2093
Andrei K Dioumaev
Eleonora S Imasheva
Janos K Lanyi
Jennifer M Wang
Kwang-Hwan Jung
Sergei P Balashov
P2860
P304
P356
10.1021/BI501064N
P407
P577
2014-11-24T00:00:00Z