Rapid loss of structural motifs in the manganese complex of oxygenic photosynthesis by X-ray irradiation at 10-300 K.
about
Proton-coupled electron transferMn4Ca cluster in photosynthesis: where and how water is oxidized to dioxygenA comparison of vanadate to a 2'-5' linkage at the active site of a small ribozyme suggests a role for water in transition-state stabilizationSimultaneous Femtosecond X-ray Spectroscopy and Diffraction of Photosystem II at Room TemperatureRoom temperature femtosecond X-ray diffraction of photosystem II microcrystalsTaking snapshots of photosynthetic water oxidation using femtosecond X-ray diffraction and spectroscopy.X-ray Scattering Studies of Protein Structural Dynamics.Structural Basis for Oxygen Activation at a Heterodinuclear Manganese/Iron Cofactor.On the structure of the manganese complex of photosystem II: extended-range EXAFS data and specific atomic-resolution models for four S-states.Efficiency and role of loss processes in light-driven water oxidation by PSII.Azide as a probe of proton transfer reactions in photosynthetic oxygen evolution.Photosynthetic water oxidation at elevated dioxygen partial pressure monitored by time-resolved X-ray absorption measurements.Origin and temperature dependence of radiation damage in biological samples at cryogenic temperaturesThe Mn₄Ca photosynthetic water-oxidation catalyst studied by simultaneous X-ray spectroscopy and crystallography using an X-ray free-electron laser.Methods development for diffraction and spectroscopy studies of metalloenzymes at X-ray free-electron lasers.Dark progression reveals slow timescales for radiation damage between T = 180 and 240 K.Evidence from FTIR difference spectroscopy of an extensive network of hydrogen bonds near the oxygen-evolving Mn(4)Ca cluster of photosystem II involving D1-Glu65, D2-Glu312, and D1-Glu329Energy-dispersive X-ray emission spectroscopy using an X-ray free-electron laser in a shot-by-shot modeStructural changes in the oxygen-evolving complex of photosystem II induced by the S1 to S2 transition: A combined XRD and QM/MM studyRapid X-ray photoreduction of dimetal-oxygen cofactors in ribonucleotide reductase.Altered structure of the Mn4Ca cluster in the oxygen-evolving complex of photosystem II by a histidine ligand mutation.Kinetic modeling of the X-ray-induced damage to a metalloprotein.Participation of glutamate-354 of the CP43 polypeptide in the ligation of manganese and the binding of substrate water in photosystem IIAmmonia binding to the oxygen-evolving complex of photosystem II identifies the solvent-exchangeable oxygen bridge (μ-oxo) of the manganese tetramer.Calcium exchange and structural changes during the photosynthetic oxygen evolving cycle.Proton coupled electron transfer and redox active tyrosines in Photosystem IILight-dependent production of dioxygen in photosynthesis.Spatio-temporal resolution of primary processes of photosynthesis.Resolving the Differences Between the 1.9 Å and 1.95 Å Crystal Structures of Photosystem II: A Single Proton Relocation Defines Two Tautomeric Forms of the Water-Oxidizing Complex.Practical macromolecular cryocrystallography.Oxomanganese complexes for natural and artificial photosynthesis.Ligation of D1-His332 and D1-Asp170 to the manganese cluster of photosystem II from Synechocystis assessed by multifrequency pulse EPR spectroscopy.Fast Detection Allows Analysis of the Electronic Structure of Metalloprotein by X-ray Emission Spectroscopy at Room Temperature.Computational studies of the O(2)-evolving complex of photosystem II and biomimetic oxomanganese complexesX-Ray spectroscopy of the photosynthetic oxygen-evolving complex.Protein Ligation of the Photosynthetic Oxygen-Evolving Center.No evidence from FTIR difference spectroscopy that glutamate-189 of the D1 polypeptide ligates a Mn ion that undergoes oxidation during the S0 to S1, S1 to S2, or S2 to S3 transitions in photosystem IINo evidence from FTIR difference spectroscopy that aspartate-342 of the D1 polypeptide ligates a Mn ion that undergoes oxidation during the S0 to S1, S1 to S2, or S2 to S3 transitions in photosystem IIHigh-resolution structure of the photosynthetic Mn4Ca catalyst from X-ray spectroscopy.FTIR detection of water reactions in the oxygen-evolving centre of photosystem II.
P2860
Q24597113-73A7ACB8-7AB2-4C59-B812-3293A624C644Q26822448-CD8228E0-5547-4325-B16B-E17105FF47BCQ27644728-859F4F3C-85CB-4C65-902C-87015C7414E9Q27676393-1B1446C5-3087-4428-A756-E2D621F63FE9Q27679501-D6A2AA08-83B0-42AA-8391-793AB9EEB612Q27684626-F94E4E74-E129-41A1-9D49-2F6A25936BAAQ30101114-182B15FE-EF6B-4517-A069-0FBE058B27C2Q30677281-F9905703-869F-4E13-A862-B628277A846BQ31135679-E72E8968-6F74-4329-BA5A-C3A31E211EE6Q33318318-8646D48C-517C-49F1-B74C-DD4608469559Q33370850-9CA525B6-FE4B-48FE-9973-9DE1810D62E0Q33382972-9A9FE8D8-81AE-4B9F-8039-6AE542696C05Q33560554-0397464A-59E6-4756-AA93-A7CF7D815790Q33738389-5FA61087-BAFB-4769-8DEC-D9AA910706B1Q33738441-FE7E258B-9A02-4C62-AC2B-D7CC815E313AQ34014404-4952F40A-8815-4E6D-8B09-09A7904872C0Q34049865-4D52225D-DF17-40E3-A85F-EF8F9E27E242Q34468069-A72879DC-80D4-48FA-915D-2C9C6B4DF1C2Q34502796-D517065C-2A4E-4E0D-984F-FDE835A3E1A7Q34582760-0CBA803C-17B3-4942-9534-8DCD3A987AC2Q34685156-48E9CCF6-4A3D-45A6-965E-966DCF926698Q34788281-88748892-1BF5-4048-88C0-DF722D8D6A58Q34951030-F04251EF-817C-4EE6-A57F-5A5E6F20A92DQ34983436-FA157348-5F9D-49B8-B26C-B4328FBD8A27Q34984656-BD6FAAE3-C002-4866-BA88-A9F5463A581EQ35189808-5B21AFC1-91D2-4163-82BC-23B7DF626512Q35566246-C1AC4319-94C3-4E4C-A0B6-63AB1B3CF6F8Q35590614-1ED60439-9A2E-4E37-934F-3F909F18A38CQ35616119-6AE514B7-B2FB-4E36-9D6C-47AB45A680BCQ35705015-91B990A3-3076-42F2-BB65-C179878906BEQ35911064-215BC6B8-5375-49BD-A301-E0718618A7D4Q36160985-43B8C4C3-4D49-4AE4-9870-DF32FBE6DF30Q36176415-550649DC-8BEA-4327-8402-7F25B54AF8A4Q36597097-59F7519E-2380-493D-8749-1004F429878DQ36663579-102AF1AD-65B0-4CB5-B84C-F09C0B13627FQ36666412-3C2BDDB7-882D-41D2-BE51-8C2B0F8A1A75Q36835715-FD447F0A-FD12-40D4-83B1-6F56D02F3CABQ36839014-D9D05B50-E271-4927-B0AF-03CD5E8D43DCQ36978485-9A26A9F2-1EAA-42DE-ACF3-02963D57E0EDQ36983483-27216CA3-4B2C-4919-BDCF-AA974C08A9AE
P2860
Rapid loss of structural motifs in the manganese complex of oxygenic photosynthesis by X-ray irradiation at 10-300 K.
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
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-hant
name
Rapid loss of structural motif ...... X-ray irradiation at 10-300 K.
@en
Rapid loss of structural motif ...... X-ray irradiation at 10-300 K.
@nl
type
label
Rapid loss of structural motif ...... X-ray irradiation at 10-300 K.
@en
Rapid loss of structural motif ...... X-ray irradiation at 10-300 K.
@nl
prefLabel
Rapid loss of structural motif ...... X-ray irradiation at 10-300 K.
@en
Rapid loss of structural motif ...... X-ray irradiation at 10-300 K.
@nl
P2093
P2860
P356
P1476
Rapid loss of structural motif ...... X-ray irradiation at 10-300 K.
@en
P2093
Claudia Müller
Holger Dau
Markus Grabolle
Michael Haumann
Peter Liebisch
P2860
P304
P356
10.1074/JBC.M509724200
P407
P577
2005-12-13T00:00:00Z