about
Biochemistry and theory of proton-coupled electron transferProton transfer reactions and hydrogen-bond networks in protein environmentsFemtosecond structural dynamics drives the trans/cis isomerization in photoactive yellow proteinArginine residues at internal positions in a protein are always chargedRapid visualization of hydrogen positions in protein neutron crystallographic structuresNew insights into the enzymatic mechanism of human chitotriosidase (CHIT1) catalytic domain by atomic resolution X-ray diffraction and hybrid QM/MMStrong ionic hydrogen bonding causes a spectral isotope effect in photoactive yellow protein.Neutron Crystallography for the Study of Hydrogen Bonds in Macromolecules.Neutrons for biologists: a beginner's guide, or why you should consider using neutrons.Refinement of macromolecular structures against neutron data with SHELXL2013.Proton affinity of the oxyanion hole in the active site of ketosteroid isomerase.Preliminary joint X-ray and neutron protein crystallographic studies of endoxylanase II from the fungus Trichoderma longibrachiatum.Excited-State Electronic Structure with Configuration Interaction Singles and Tamm-Dancoff Time-Dependent Density Functional Theory on Graphical Processing Units.Energetics of short hydrogen bonds in photoactive yellow protein.Ligand-Induced Proton Transfer and Low-Barrier Hydrogen Bond Revealed by X-ray Crystallography.Short Hydrogen Bonds and Proton Delocalization in Green Fluorescent Protein (GFP)Long-Range Electrostatics-Induced Two-Proton Transfer Captured by Neutron Crystallography in an Enzyme Catalytic Site.Hydrogen bond dynamics in the active site of photoactive yellow proteinAn extended N-H bond, driven by a conserved second-order interaction, orients the flavin N5 orbital in cholesterol oxidase.Seeing the chemistry in biology with neutron crystallography.Photochemical reactions in biological systems: probing the effect of the environment by means of hybrid quantum chemistry/molecular mechanics simulations.On the involvement of single-bond rotation in the primary photochemistry of photoactive yellow protein.(15)N and (1)H Solid-State NMR Investigation of a Canonical Low-Barrier Hydrogen-Bond Compound: 1,8-Bis(dimethylamino)naphthalene.Probing the early stages of photoreception in photoactive yellow protein with ultrafast time-domain Raman spectroscopy.Short Carboxylic Acid-Carboxylate Hydrogen Bonds Can Have Fully Localized Protons.Mechanisms for Two-Step Proton Transfer Reactions in the Outward-Facing Form of MATE Transporter.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.Comprehensive determination of protein tyrosine pKa values for photoactive yellow protein using indirect 13C NMR spectroscopy.(1)H, (13)C, and (15)N resonance assignment of photoactive yellow protein.Origins of the Intermediate Spectral Form in M100 Mutants of Photoactive Yellow Protein.Neutron crystallography of photoactive yellow protein reveals unusual protonation state of Arg52 in the crystal.Neutron structure of the T26H mutant of T4 phage lysozyme provides insight into the catalytic activity of the mutant enzyme and how it differs from that of wild type.Vibrational analysis on the revised potential energy curve of the low-barrier hydrogen bond in photoactive yellow protein.Neutron scattering techniques and applications in structural biology.Nuclear quantum effect and temperature dependency on the hydrogen-bonded structure of base pairs.Computerized implementation of higher-order electron-correlation methods and their linear-scaling divide-and-conquer extensions.Photo absorption of p-coumaric acid in aqueous solution: RISM-SCF-SEDD theory approach.Unambiguous Determination of Protein Arginine Ionization States in Solution by NMR Spectroscopy.Active-Site pKa Determination for Photoactive Yellow Protein Rationalizes Slow Ground-State Recovery.
P2860
Q26863530-B6BA80F6-6CFD-4C4E-AE0F-068C29262240Q27006718-4EC807F6-1B7C-49AB-9D8A-1C62EC4B7803Q27644304-2814D132-EB83-4BEA-9CCE-0540CB6CC754Q27675548-0B38D177-C409-4220-9C91-5B81337C2FE8Q27676373-B3F777AB-7786-4633-899E-E01010A40000Q27701462-596B676C-4DFC-4E45-BDA4-EEAD5D8C0737Q30356517-836854BD-5717-4120-B993-AE92C34A58D5Q30400856-B960D9F7-1834-454C-8CA3-E679DC50DB9AQ30479224-74BA73EE-A773-42BC-8998-32895113A629Q30768905-B14CFE91-1564-4F6A-A8B0-B7BF56F8D6EFQ33781196-ED5EA2F9-8B0C-4D03-A04A-F9FBDCE8C2F1Q34555879-F661349A-CAFC-44F5-ACD5-84AAA2F5AB92Q35043667-FD533AA3-73E6-4895-A2BD-3AC8E019D5C9Q35657743-839A4B64-3ECE-42D5-A0AB-C7DFBBE16561Q35934124-FEC75FD4-17AE-4C1C-87AE-DE9A729863ACQ36786854-A7B1F092-547E-4751-9255-1A929C126791Q37094790-61530480-1181-4928-93CC-9BBC4F1586BDQ37224306-03E868B2-F6CA-4F13-AD94-142406AD0CE2Q37591354-D4A0B062-6759-4DBE-B5EE-827C7857A97CQ37714040-0A65C00D-029F-429B-922A-87E7F6EAED32Q38005575-C266D575-6D5E-470C-9AEA-DF255EE0B5E0Q38272699-2A17F4E1-B38E-46E8-986D-173C477463EEQ38613592-00C0A7A4-785C-410A-B61F-F9161BF0F0C0Q38712148-42401E5E-894F-4299-8F07-357FA939CBB4Q39091571-018A5302-5306-4CEF-9E4C-9A28BFAE6468Q39758058-209D42ED-7E20-49C1-A969-48621D87FC5DQ40149408-14B76A38-56DE-4F48-8D44-8E56B3E76748Q40689758-23EDD677-46A9-48DA-A5FB-492D7DCCFB9DQ40930244-7D175D43-B37E-4AB0-A3CD-8AB6D0186D89Q41259603-7096761E-B58D-4FB7-8CD8-568D9884854FQ41468491-B8412DE0-6B3E-46F5-91E8-B917D2FD97F2Q41516562-77BFFC99-5A96-4CE0-9C11-A88B3901D6C3Q41703430-94553581-AE85-4194-A2AE-64947B901CBCQ43120251-E732B114-51AC-4FA3-8554-5EB03F127CEFQ43599691-7DD6398F-C7CF-4340-A974-21E8F2574B26Q44660321-EE7ED544-C116-4666-83B5-616B64C8B15CQ47810864-9DA8EF4E-269C-460B-BCD2-0A9AD3E7FED0Q47912759-2CFD3F40-AAB1-4FCC-82C6-DD9856DC0D8FQ48191212-EB48E837-4BAD-47A2-8FD1-3938F989721FQ50173273-CAD5AFFA-F0D0-415B-B16B-0120CBE7BE98
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Low-barrier hydrogen bond in photoactive yellow protein
@ast
Low-barrier hydrogen bond in photoactive yellow protein
@en
Low-barrier hydrogen bond in photoactive yellow protein
@nl
type
label
Low-barrier hydrogen bond in photoactive yellow protein
@ast
Low-barrier hydrogen bond in photoactive yellow protein
@en
Low-barrier hydrogen bond in photoactive yellow protein
@nl
prefLabel
Low-barrier hydrogen bond in photoactive yellow protein
@ast
Low-barrier hydrogen bond in photoactive yellow protein
@en
Low-barrier hydrogen bond in photoactive yellow protein
@nl
P2093
P2860
P356
P1476
Low-barrier hydrogen bond in photoactive yellow protein
@en
P2093
Hironari Kamikubo
Kazuo Kurihara
Mikio Kataoka
Nobuo Niimura
Nobutaka Shimizu
Ryota Kuroki
Shigeo Yamaguchi
Yoichi Yamazaki
P2860
P356
10.1073/PNAS.0811882106
P407
P577
2009-01-13T00:00:00Z