review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1007/S11120-010-9559-3 |
P698 | PubMed publication ID | 20512415 |
P50 | author | Adele Williamson | Q59706008 |
Brendon Conlan | Q54005781 | ||
P2093 | author name string | Tom Wydrzynski | |
Warwick Hillier | |||
P2860 | cites work | Quantifying the ion selectivity of the Ca2+ site in photosystem II: evidence for direct involvement of Ca2+ in O2 formation | Q74095128 |
Reconstitution of core light-harvesting complexes of photosynthetic bacteria using chemically synthesized polypeptides. 1. Minimal requirements for subunit formation | Q74377741 | ||
Reconstitution of core light-harvesting complexes of photosynthetic bacteria using chemically synthesized polypeptides. 2. Determination of structural features that stabilize complex formation and their implications for the structure of the subunit | Q74377746 | ||
The origin and evolution of oxygenic photosynthesis | Q74530080 | ||
A functional model for O-O bond formation by the O2-evolving complex in photosystem II | Q74582810 | ||
A redox switch hypothesis for the origin of two light reactions in photosynthesis | Q81400273 | ||
Magneto-optic spectroscopy of a protein tetramer binding two exciton-coupled chlorophylls | Q82822718 | ||
The effect of oxygen on biochemical networks and the evolution of complex life | Q82927981 | ||
Light, iron, Sam Granick and the origin of life | Q87066767 | ||
Complete Genome Structure of Gloeobacter violaceus PCC 7421, a Cyanobacterium that Lacks Thylakoids | Q22066075 | ||
Crystal structure of oxygen-evolving photosystem II from Thermosynechococcus vulcanus at 3.7-A resolution | Q24541286 | ||
Crystal structure of photosystem II from Synechococcus elongatus at 3.8 A resolution | Q27629975 | ||
Architecture of the photosynthetic oxygen-evolving center | Q27643091 | ||
Cyanobacterial photosystem II at 2.9-A resolution and the role of quinones, lipids, channels and chloride | Q27653817 | ||
Structure of a monoclinic crystal from of cyctochrome b1 (Bacterioferritin) from E. coli | Q27766396 | ||
Two-phase increase in the maximum size of life over 3.5 billion years reflects biological innovation and environmental opportunity | Q28756066 | ||
The lipid A palmitoyltransferase PagP: molecular mechanisms and role in bacterial pathogenesis | Q30160159 | ||
Structure and function of bacterial outer membrane proteins: barrels in a nutshell | Q30168847 | ||
S(-3) state of the water oxidase in photosystem II | Q73427884 | ||
Chlorophyll binding to peptide maquettes containing a retention motif | Q73586033 | ||
Substrate water exchange in photosystem II depends on the peripheral proteins | Q57134988 | ||
Out of thin air | Q57179011 | ||
Analysis of the Structure of the PsbO Protein and its Implications | Q58051530 | ||
Water Oxidation Catalyzed by a Dinuclear Mn Complex: A Functional Model for the Oxygen-Evolving Center of Photosystem II | Q63344705 | ||
Periplasmic superoxide dismutases in Aquaspirillum magnetotacticum | Q69554007 | ||
Dioxygen is the source of the mu-oxo bridge in iron ribonucleotide reductase | Q72272444 | ||
Does functional photosystem II complex have an oxygen channel? | Q73408070 | ||
Cloning and characterization of the genes coding for two porins in the unicellular cyanobacterium Synechococcus PCC 6301. | Q30176078 | ||
Porins and specific channels of bacterial outer membranes | Q30195509 | ||
Focusing the view on nature's water-splitting catalyst | Q30485316 | ||
Design, synthesis, and characterization of a photoactivatable flavocytochrome molecular maquette | Q32028676 | ||
Effects of noncovalently bound quinones on the ground and triplet states of zinc chlorins in solution and bound to de novo synthesized peptides | Q33264296 | ||
The continuing puzzle of the great oxidation event. | Q33347482 | ||
Protein engineering of cytochrome b562 for quinone binding and light-induced electron transfer | Q33580348 | ||
Cyanobacterial cell walls: news from an unusual prokaryotic envelope | Q33835862 | ||
Natural engineering principles of electron tunnelling in biological oxidation-reduction | Q33881476 | ||
X-ray damage to the Mn4Ca complex in single crystals of photosystem II: a case study for metalloprotein crystallography | Q33917512 | ||
Proton and hydrogen currents in photosynthetic water oxidation | Q33919291 | ||
Towards complete cofactor arrangement in the 3.0 A resolution structure of photosystem II. | Q33992219 | ||
A possible evolutionary origin for the Mn4 cluster of the photosynthetic water oxidation complex from natural MnO2 precipitates in the early ocean | Q34065403 | ||
Kinetics and pathways of charge recombination in photosystem II. | Q34135019 | ||
A cytochrome b origin of photosynthetic reaction centers: an evolutionary link between respiration and photosynthesis | Q34153193 | ||
A novel scenario for the evolution of haem-copper oxygen reductases. | Q34239917 | ||
Dating the rise of atmospheric oxygen | Q34288690 | ||
The evolutionary development of the protein complement of photosystem 2. | Q34315205 | ||
Origin and early evolution of photosynthesis | Q34357681 | ||
Evolution of energetic metabolism: the respiration-early hypothesis | Q34373088 | ||
Water-soluble chlorophyll protein in Brassicaceae plants is a stress-induced chlorophyll-binding protein | Q34384912 | ||
The origin of atmospheric oxygen on Earth: the innovation of oxygenic photosynthesis | Q34444656 | ||
Conservation of distantly related membrane proteins: photosynthetic reaction centers share a common structural core | Q34554122 | ||
Eight steps preceding O-O bond formation in oxygenic photosynthesis--a basic reaction cycle of the Photosystem II manganese complex | Q34578776 | ||
S-Layers as a basic building block in a molecular construction kit. | Q34593211 | ||
Water as an active constituent in cell biology | Q34728074 | ||
Complex evolution of photosynthesis | Q34833884 | ||
Functional implications on the mechanism of the function of photosystem II including water oxidation based on the structure of photosystem II | Q35001256 | ||
Oxygen activation and the conservation of energy in cell respiration | Q35226038 | ||
Evolution of oxygenic photosynthesis: genome-wide analysis of the OEC extrinsic proteins | Q35631952 | ||
Laser flash photolysis studies of electron transfer between semiquinone and fully reduced free flavins and horse heart cytochrome c | Q36377578 | ||
The composition and the structure of bacterioferritin of Escherichia coli | Q36643229 | ||
Water-splitting chemistry of photosystem II. | Q36647993 | ||
A cluster of carboxylic groups in PsbO protein is involved in proton transfer from the water oxidizing complex of Photosystem II. | Q36751254 | ||
Tracking molecular evolution of photosynthesis by characterization of a major photosynthesis gene cluster from Heliobacillus mobilis | Q36757193 | ||
Structural characteristics of channels and pathways in photosystem II including the identification of an oxygen channel | Q36763347 | ||
Engineering model proteins for Photosystem II function. | Q36979005 | ||
Why did Nature choose manganese to make oxygen? | Q36986230 | ||
Evolutionary ecology during the rise of dioxygen in the Earth's atmosphere | Q37022720 | ||
Designing photosystem II: molecular engineering of photo-catalytic proteins | Q37262821 | ||
Structural and functional aspects of the MSP (PsbO) and study of its differences in thermophilic versus mesophilic organisms | Q37263987 | ||
Comparison of bacterial reaction centers and photosystem II. | Q37293313 | ||
Photoassembly of the Water-Oxidizing Complex in Photosystem II. | Q37384744 | ||
Identification of the ferroxidase centre of Escherichia coli bacterioferritin | Q38288531 | ||
Conversion of the Escherichia coli cytochrome b562 to an archetype cytochrome b: a mutant with bis-histidine ligation of heme iron | Q38332506 | ||
Multiple periplasmic catalases in phytopathogenic strains of Pseudomonas syringae | Q39894412 | ||
Metallocytochromes c : Characterization of Electronic Absorption and Emission Spectra of Sn4+ and Zn2+ Cytochromes c | Q39995044 | ||
Design of amphiphilic protein maquettes: enhancing maquette functionality through binding of extremely hydrophobic cofactors to lipophilic domains | Q41130761 | ||
Electron transfer in zinc-reconstituted nitrite reductase from Pseudomonas aeruginosa | Q42092084 | ||
Photosystem II complex in vivo is a monomer | Q42104561 | ||
Helicobacter hepaticus catalase shares surface-predicted epitopes with mammalian catalases | Q42615384 | ||
The identity of Escherichia coli bacterioferritin and cytochrome b1. | Q42818878 | ||
Biosynthetic Ca2+/Sr2+ exchange in the photosystem II oxygen-evolving enzyme of Thermosynechococcus elongatus | Q43014893 | ||
Probing the accessibility of the Mn(4)Ca cluster in photosystem II: channels calculation, noble gas derivatization, and cocrystallization with DMSO. | Q43277643 | ||
Design, synthesis and properties of synthetic chlorophyll proteins | Q43628330 | ||
Characterization of the O(2)-evolving reaction catalyzed by [(terpy)(H2O)Mn(III)(O)2Mn(IV)(OH2)(terpy)](NO3)3 (terpy = 2,2':6,2"-terpyridine). | Q43677051 | ||
Binding of Zn-chlorin to a synthetic four-helix bundle peptide through histidine ligation | Q44292320 | ||
Core formation in Escherichia coli bacterioferritin requires a functional ferroxidase center | Q44667748 | ||
Influence of structure on binding of chlorophylls to peptide ligands | Q45266552 | ||
Photo-catalytic oxidation of a di-nuclear manganese centre in an engineered bacterioferritin 'reaction centre'. | Q46028649 | ||
Late Archean biospheric oxygenation and atmospheric evolution | Q46501605 | ||
Oxygen evolution catalysis by a dimanganese complex and its relation to photosynthetic water oxidation | Q46710059 | ||
Manganese Cluster in Photosynthesis: Where Plants Oxidize Water to Dioxygen | Q46824692 | ||
Design of a minimal polypeptide unit for bacteriochlorophyll binding and self-assembly based on photosynthetic bacterial light-harvesting proteins | Q46942180 | ||
Thinking about the evolution of photosynthesis | Q47236058 | ||
Isotopic evidence for Mesoarchaean anoxia and changing atmospheric sulphur chemistry. | Q47746772 | ||
Quantum mechanics/molecular mechanics study of the catalytic cycle of water splitting in photosystem II. | Q47898550 | ||
Periplasmic Cu,Zn superoxide dismutase and cytoplasmic Dps concur in protecting Salmonella enterica serovar Typhimurium from extracellular reactive oxygen species | Q50065299 | ||
Access channels and methanol binding site to the CaMn4 cluster in Photosystem II based on solvent accessibility simulations, with implications for substrate water access. | Q50142618 | ||
Structure and evolution of the extrinsic proteins that stabilize the oxygen-evolving engine. | Q51315540 | ||
Energetics of a possible proton exit pathway for water oxidation in photosystem II. | Q51951003 | ||
The iron oxidation and hydrolysis chemistry of Escherichia coli bacterioferritin. | Q52416564 | ||
Evolution. Tracing oxygen's imprint on earth's metabolic evolution. | Q53132439 | ||
The importance of protein-protein interactions for optimising oxygen activity in photosystem II: reconstitution with a recombinant thioredoxin--manganese stabilising protein. | Q54441877 | ||
The 'molten globule' state is involved in the translocation of proteins across membranes? | Q54740420 | ||
Whole-Genome Analysis of Photosynthetic Prokaryotes | Q56680896 | ||
P433 | issue | 1 | |
P921 | main subject | photosystem II | Q22327014 |
P304 | page(s) | 71-86 | |
P577 | publication date | 2010-05-29 | |
P1433 | published in | Photosynthesis Research | Q15756144 |
P1476 | title | The evolution of Photosystem II: insights into the past and future | |
P478 | volume | 107 |
Q47780520 | A physiological perspective on the origin and evolution of photosynthesis. |
Q30406181 | Crystallization chaperone strategies for membrane proteins |
Q38166651 | De novo design of functional proteins: Toward artificial hydrogenases |
Q62772968 | Early evolution of purple retinal pigments on Earth and implications for exoplanet biosignatures |
Q64102705 | Energetics and Kinetics of S-State Transitions Monitored by Delayed Chlorophyll Fluorescence |
Q27028195 | Evolution of strategies to prepare synthetic mimics of carboxylate-bridged diiron protein active sites |
Q34295520 | Fundamental limits on wavelength, efficiency and yield of the charge separation triad |
Q24606370 | Genomes of Stigonematalean cyanobacteria (subsection V) and the evolution of oxygenic photosynthesis from prokaryotes to plastids |
Q42904712 | Ligand modification transforms a catalase mimic into a water oxidation catalyst |
Q35787251 | Light-driven oxygen production from superoxide by Mn-binding bacterial reaction centers |
Q28678436 | Manganese-oxidizing photosynthesis before the rise of cyanobacteria |
Q26822448 | Mn4Ca cluster in photosynthesis: where and how water is oxidized to dioxygen |
Q47256811 | Oxygenic photosynthesis and the distribution of chloroplasts |
Q38709444 | Reconstructing the Origin of Oxygenic Photosynthesis: Do Assembly and Photoactivation Recapitulate Evolution? |
Q30388946 | Review of recent transgenic studies on abiotic stress tolerance and future molecular breeding in potato |
Q28681244 | The Primitive Thylakoid-Less Cyanobacterium Gloeobacter Is a Common Rock-Dwelling Organism |
Q53115735 | The biological and geological contingencies for the rise of oxygen on Earth. |
Q93383434 | Thomas John Wydrzynski (8 July 1947-16 March 2018) |
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