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Structure of the human adenovirus serotype 2 fiber head domain at 1.5 A resolutionA triple beta-spiral in the adenovirus fibre shaft reveals a new structural motif for a fibrous proteinDimeric structure of the coxsackievirus and adenovirus receptor D1 domain at 1.7 A resolutionCrystal structure of a heat and protease-stable part of the bacteriophage T4 short tail fibreThe structure of the receptor-binding domain of the bacteriophage T4 short tail fibre reveals a knitted trimeric metal-binding foldThree-dimensional structure of bacteriophage T4 baseplateStructure of the C-terminal head domain of the fowl adenovirus type 1 long fiberStructure of the Receptor-Binding Protein of Bacteriophage Det7: a Podoviral Tail Spike in a MyovirusCrystal Structure of the Avian Reovirus Inner Capsid Protein ACrystallographic structure of the alpha-helical triple coiled-coil domain of avian reovirus S1133 fibreSynthesis and biological evaluation of new nanomolar competitive inhibitors of Helicobacter pylori type II dehydroquinase. Structural details of the role of the aromatic moieties with essential residuesCrystallographic Structure of Porcine Adenovirus Type 4 Fiber Head and Galectin DomainsUnderstanding the key factors that control the inhibition of type II dehydroquinase by (2R)-2-benzyl-3-dehydroquinic acidsStructure of the bacteriophage T4 long tail fiber receptor-binding tipTetrahydrobenzothiophene derivatives: conformationally restricted inhibitors of type II dehydroquinaseA prodrug approach for improving antituberculosis activity of potent Mycobacterium tuberculosis type II dehydroquinase inhibitorsHigh-resolution structures ofThermus thermophilusenoyl-acyl carrier protein reductase in the apo form, in complex with NAD+and in complex with NAD+and triclosanStructural Characterization of the Bacteriophage T7 Tail MachineryStructure of the receptor-binding carboxy-terminal domain of bacteriophage T7 tail fibersChallenging the state of the art in protein structure prediction: Highlights of experimental target structures for the 10th Critical Assessment of Techniques for Protein Structure Prediction Experiment CASP10Mechanistic basis of the inhibition of type II dehydroquinase by (2S)- and (2R)-2-benzyl-3-dehydroquinic acidsCrystal structure of the lytic CHAPK domain of the endolysin LysK from Staphylococcus aureus bacteriophage KMycobacterium tuberculosis shikimate kinase inhibitors: design and simulation studies of the catalytic turnoverExploring the water-binding pocket of the type II dehydroquinase enzyme in the structure-based design of inhibitorsInsights into substrate binding and catalysis in bacterial type I dehydroquinaseIrreversible covalent modification of type I dehydroquinase with a stable Schiff baseChemical Modification of a Dehydratase Enzyme Involved in Bacterial Virulence by an Ammonium Derivative: Evidence of its Active Site Covalent AdductFasciola hepatica calcium-binding protein FhCaBP2: structure of the dynein light chain-like domainThe structure of bovine F1-ATPase complexed with the peptide antibiotic efrapeptinDouble-stranded helical twisted beta-sheet channels in crystals of gramicidin S grown in the presence of trifluoroacetic and hydrochloric acidsThe Eighth Central European Conference "Chemistry towards Biology": SnapshotStructure of the carboxy-terminal receptor-binding domain of avian reovirus fibre sigmaC.Some of the most interesting CASP11 targets through the eyes of their authorsTarget highlights in CASP9: Experimental target structures for the critical assessment of techniques for protein structure predictionThe structure of bovine mitochondrial F1-ATPase: an example of rotary catalysis.Crystallization of the carboxy-terminal region of the bacteriophage T4 proximal long tail fibre protein gp34.Molecular characterization of a lizard adenovirus reveals the first atadenovirus with two fiber genes and the first adenovirus with either one short or three long fibers per pentonFo membrane domain of ATP synthase from bovine heart mitochondria: purification, subunit composition, and reconstitution with F1-ATPase.Review: conformation and folding of novel beta-structural elements in viral fiber proteins: the triple beta-spiral and triple beta-helix.Crystal structure of the fibre head domain of the Atadenovirus Snake Adenovirus 1
P50
Q27619766-B97B6898-B262-405D-A1B3-DDA52ED4224AQ27620295-04418DB6-8F13-443B-A0E3-DA7BA612A1ACQ27628357-61EB846E-E816-4D15-A4C7-0EFA0279B73AQ27636851-F3B29A99-DD56-4515-A87E-8742ED71DB28Q27641750-E59CC0FB-A93B-4EF2-929E-BDD58FEB97CEQ27641848-DCD3789B-8CCD-43E2-832C-72BC04409D34Q27647271-80B30DD1-1FB5-4E50-8B31-2812AC8B3602Q27649311-C833C4B0-4AD8-4536-A0BD-4657D0797B1CQ27652209-83F6AE17-AC4C-4F51-AF89-790C73BD8D90Q27653809-43B68B2B-938D-4DB1-B96D-A13DDF514E52Q27658152-BF3CFAB7-DBFF-4094-A70B-5B997E646EF6Q27663879-CADE2D60-78E4-4077-A8CC-59273C8C4502Q27664256-766A01C7-D804-40DF-9966-ACA3B1BD6ECAQ27665551-306B0AF1-D2D9-417C-AE63-46F921B25ACEQ27666605-E0CE7267-C139-4CCD-B513-599CFC3086FFQ27670950-FF541A24-2810-457E-9A24-CB5013DA9AA8Q27673784-749C112B-05B6-4B2C-855C-AE09CDAF2002Q27679194-619D0120-BCF7-4E4E-BEAE-0562497413CCQ27679354-E7EEDD18-4243-437A-97FD-4026FC7CC833Q27680838-658AE4E7-727E-4892-8C2D-6E7F016DEDE7Q27683522-12CD02FC-50E0-4F39-9A8D-4555508104D9Q27684825-0D085D75-CF7A-4EFA-8E16-35F4561B97B7Q27685277-E5089A60-2374-4FBE-BCF0-BC5AE50DA06AQ27689679-9D4A568C-1DDA-4822-B663-4F17491DE273Q27690793-55A8BCB1-54B2-4529-A75C-5852D0CF07D2Q27696136-2C45B4E5-AD42-419B-A841-A3218F43DC2FQ27701514-6F7FB3D8-F29F-4EAA-88BD-F722DDA896D7Q27704642-6FD61260-A763-4BDB-A48C-08204075DD93Q27733342-EA2C6BCB-48AE-489F-A9F6-94A3672B9C8CQ28290528-E89C960F-0B65-43A1-946C-0102247D5325Q28817788-F4B0F637-1379-4316-A9FC-65C5F0778B95Q30160104-A11A6A42-178E-4F9B-A832-FD17F3058497Q30380342-283DCF09-0176-4AF1-A923-F198D3CBBFAAQ30408519-A2A5DE91-EEFC-459C-A64C-95355C8918B5Q33545329-0D98F71F-43F0-42B2-86EF-9E5483C216A0Q33872885-DD39382D-19E7-4D31-AACA-5C178729C6DDQ34261815-8E94EE61-3C18-43B8-B2FF-60477E0732A8Q34328826-F1E00A64-1B93-4C60-AA26-7019635433A9Q34686252-FD691BF9-D66B-410B-982D-875CBECB9545Q35500187-877D43D1-88A1-4D57-9CE5-2BBEB4D1BAB2
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Mark J van Raaij
@ast
Mark J van Raaij
@en
Mark J van Raaij
@es
Mark J van Raaij
@nl
Mark J van Raaij
@sl
type
label
Mark J van Raaij
@ast
Mark J van Raaij
@en
Mark J van Raaij
@es
Mark J van Raaij
@nl
Mark J van Raaij
@sl
prefLabel
Mark J van Raaij
@ast
Mark J van Raaij
@en
Mark J van Raaij
@es
Mark J van Raaij
@nl
Mark J van Raaij
@sl
P1053
B-3678-2009
P106
P1153
7003305911
P21
P31
P3829
P496
0000-0002-4781-1375