Role of the retinal hydrogen bond network in rhodopsin Schiff base stability and hydrolysis.
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Structural role of the T94I rhodopsin mutation in congenital stationary night blindnessRapid release of retinal from a cone visual pigment following photoactivationRetinal Attachment Instability Is Diversified among Mammalian Melanopsins.Spectral tuning in vertebrate short wavelength-sensitive 1 (SWS1) visual pigments: can wavelength sensitivity be inferred from sequence data?Modulating G-protein coupled receptor/G-protein signal transduction by small molecules suggested by virtual screening.How a small change in retinal leads to G-protein activation: initial events suggested by molecular dynamics calculations.Unusual kinetics of thermal decay of dim-light photoreceptors in vertebrate vision.Highly conserved tyrosine stabilizes the active state of rhodopsin.Functional characterization of the rod visual pigment of the echidna (Tachyglossus aculeatus), a basal mammal.Role of bulk water in hydrolysis of the rhodopsin chromophore.G protein-coupled receptor rhodopsin.Thermal properties of rhodopsin: insight into the molecular mechanism of dim-light vision.Computational Biology of Olfactory Receptors.Chemical kinetic analysis of thermal decay of rhodopsin reveals unusual energetics of thermal isomerization and hydrolysis of Schiff baseEffect of channel mutations on the uptake and release of the retinal ligand in opsin.Evolution of nonspectral rhodopsin function at high altitudes.Thermal stability of rhodopsin and progression of retinitis pigmentosa: comparison of S186W and D190N rhodopsin mutants.The photo-Favorskii reaction of p-hydroxyphenacyl compounds is initiated by water-assisted, adiabatic extrusion of a triplet biradical.Helix movement is coupled to displacement of the second extracellular loop in rhodopsin activation.Retinitis pigmentosa mutants provide insight into the role of the N-terminal cap in rhodopsin folding, structure, and function.Microbial and animal rhodopsins: structures, functions, and molecular mechanisms.S cones: Evolution, retinal distribution, development, and spectral sensitivity.Bioorthogonal fluorescent labeling of functional G-protein-coupled receptors.Measurement of Slow Spontaneous Release of 11-cis-Retinal from Rhodopsin.Thermal decay of rhodopsin: role of hydrogen bonds in thermal isomerization of 11-cis retinal in the binding site and hydrolysis of protonated Schiff base.Probing the remarkable thermal kinetics of visual rhodopsin with E181Q and S186A mutants.Rhodopsin deactivation is affected by mutations of Tyrl91.
P2860
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P2860
Role of the retinal hydrogen bond network in rhodopsin Schiff base stability and hydrolysis.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
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name
Role of the retinal hydrogen b ...... base stability and hydrolysis.
@en
Role of the retinal hydrogen b ...... base stability and hydrolysis.
@nl
type
label
Role of the retinal hydrogen b ...... base stability and hydrolysis.
@en
Role of the retinal hydrogen b ...... base stability and hydrolysis.
@nl
prefLabel
Role of the retinal hydrogen b ...... base stability and hydrolysis.
@en
Role of the retinal hydrogen b ...... base stability and hydrolysis.
@nl
P2860
P356
P1476
Role of the retinal hydrogen b ...... base stability and hydrolysis.
@en
P2093
David L Farrens
Jay M Janz
P2860
P304
55886-55894
P356
10.1074/JBC.M408766200
P407
P577
2004-10-08T00:00:00Z