QM/MM study of the structure, energy storage, and origin of the bathochromic shift in vertebrate and invertebrate bathorhodopsins.
about
Unusual kinetics of thermal decay of dim-light photoreceptors in vertebrate vision.Why 11-cis-retinal? Why not 7-cis-, 9-cis-, or 13-cis-retinal in the eye?Quantum mechanical/molecular mechanical structure, enantioselectivity, and spectroscopy of hydroxyretinals and insights into the evolution of color vision in small white butterflies.Spectral tuning of ultraviolet cone pigments: an interhelical lock mechanismThe G protein-coupled receptor rhodopsin: a historical perspectiveColor tuning in photofunctional proteins.Conversion of light-energy into molecular strain in the photocycle of the photoactive yellow protein.Experimental Detection of the Intrinsic Difference in Raman Optical Activity of a Photoreceptor Protein under Preresonance and Resonance Conditions.Full-Quantum chemical calculation of the absorption maximum of bacteriorhodopsin: a comprehensive analysis of the amino acid residues contributing to the opsin shift.Electron density deformations provide new insights into the spectral shift of rhodopsins.Probing the remarkable thermal kinetics of visual rhodopsin with E181Q and S186A mutants.Spectroscopic ruler for measuring active-site distortions based on Raman optical activity of a hydrogen out-of-plane vibration
P2860
Q33971795-E93E590C-016A-49DE-9C56-D0F85836F07AQ35570937-16FB6CE7-7930-4991-BB6A-9156B63C6161Q35643920-9142FC2C-3E89-408D-BFC9-28BD8CC367EFQ35955116-7ED799AD-CF07-4CB2-A28A-295F14634162Q36121705-C8E2E4A5-8BC2-4E99-899A-F7E5CD434D4FQ37944581-F117002F-2037-4940-8C2E-07B609F4D18BQ40149408-9C2F48AA-6E89-4D1D-9290-74F3173E6BD5Q40689758-A20EB4C8-0411-4075-A150-A374F2C06291Q42185455-D9BD549A-517E-469D-8797-794FE3A3C712Q47684100-F4306C20-24EF-4B1E-B613-2523B61E8696Q48059931-87C05083-D187-424A-832E-421026D68C83Q57134318-306D31B6-1F6E-4CFF-BB14-BD1B13F162E8
P2860
QM/MM study of the structure, energy storage, and origin of the bathochromic shift in vertebrate and invertebrate bathorhodopsins.
description
2011 nî lūn-bûn
@nan
2011 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի մարտին հրատարակված գիտական հոդված
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2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@ast
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@en
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@nl
సకశేరుకం మరియు అకశేరుక బాతోర్డ ...... యు మూలం యొక్క QM / MM అధ్యయనం.
@te
type
label
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@ast
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@en
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@nl
సకశేరుకం మరియు అకశేరుక బాతోర్డ ...... యు మూలం యొక్క QM / MM అధ్యయనం.
@te
prefLabel
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@ast
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@en
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@nl
సకశేరుకం మరియు అకశేరుక బాతోర్డ ...... యు మూలం యొక్క QM / MM అధ్యయనం.
@te
P2860
P356
P1476
QM/MM study of the structure, ...... invertebrate bathorhodopsins.
@en
P2093
Keiji Morokuma
Sivakumar Sekharan
P2860
P304
P356
10.1021/JA200322W
P407
P577
2011-03-10T00:00:00Z