about
Structure of the Murray Valley encephalitis virus RNA helicase at 1.9 Å resolutionCrystal Structure of a Novel Conformational State of the Flavivirus NS3 Protein: Implications for Polyprotein Processing and Viral ReplicationCrystal structure of the Murray Valley encephalitis virus NS5 methyltransferase domain in complex with cap analoguesCrystal structure of a 3-oxoacyl-(acylcarrier protein) reductase (BA3989) from Bacillus anthracis at 2.4-A resolutionStructures of an alanine racemase fromBacillus anthracis(BA0252) in the presence and absence of (R)-1-aminoethylphosphonic acid (L-Ala-P)The structure of NMB1585, a MarR-family regulator fromNeisseria meningitidisEquine Rhinitis A Virus and Its Low pH Empty Particle: Clues Towards an Aphthovirus Entry Mechanism?Crystal structure of equine rhinitis A virus in complex with its sialic acid receptorStructural and functional insights of RANKL-RANK interaction and signalingA sensor-adaptor mechanism for enterovirus uncoating from structures of EV71Picornavirus uncoating intermediate captured in atomic detailPlate Tectonics of Virus Shell Assembly and Reorganization in Phage Φ8, a Distant Relative of Mammalian ReovirusesMore-powerful virus inhibitors from structure-based analysis of HEV71 capsid-binding moleculesStructure of human Aichi virus and implications for receptor bindingThe crystal structure of human dopamine β-hydroxylase at 2.9 Å resolutionA procedure for setting up high-throughput nanolitre crystallization experiments. Crystallization workflow for initial screening, automated storage, imaging and optimizationNear-atomic structure of Japanese encephalitis virus reveals critical determinants of virulence and stability.High-resolution structure of the catalytic region of MICAL (molecule interacting with CasL), a multidomain flavoenzyme-signaling moleculeThe crystal structure and mutational binding analysis of the extracellular domain of the platelet-activating receptor CLEC-2.The human otubain2-ubiquitin structure provides insights into the cleavage specificity of poly-ubiquitin-linkages.A RANKL mutant used as an inter-species vaccine for efficient immunotherapy of osteoporosis.Production and crystallization of the C-propeptide trimer from human procollagen III.High-speed fixed-target serial virus crystallography.In situ macromolecular crystallography using microbeamsCrystallization and preliminary X-ray analysis of mouse RANK and its complex with RANKLPotent neutralization of hepatitis A virus reveals a receptor mimic mechanism and the receptor recognition site.Semi-automated microseeding of nanolitre crystallization experimentsApplication of high-throughput technologies to a structural proteomics-type analysis of Bacillus anthracis.A plate-based high-throughput assay for virus stability and vaccine formulation.Towards rationalization of crystallization screening for small- to medium-sized academic laboratories: the PACT/JCSG+ strategy.Benefits of automated crystallization plate tracking, imaging, and analysis.Pathogen-derived HLA-E bound epitopes reveal broad primary anchor pocket tolerability and conformationally malleable peptide bindingSample preparation and mass-spectrometric characterization of crystal-derived protein samplesAuthor Correction: Pathogen-derived HLA-E bound epitopes reveal broad primary anchor pocket tolerability and conformationally malleable peptide bindingAssembly of complex viruses exemplified by a halophilic euryarchaeal virusThe structure of a prokaryotic viral envelope protein expands the landscape of membrane fusion proteinsGlutathione facilitates enterovirus assembly by binding at a druggable pocket
P50
Q27485162-BF3C6357-7139-4EB1-BDA1-4E161402D1EBQ27490476-460260CB-7468-4194-A5A8-54E44D607AE2Q27646610-1D45D96E-A35C-4CF8-B3EB-4C6259F78BF4Q27648489-D2AFCA74-1D09-4AB3-83C8-1ECD55EBFEC9Q27650512-4407C684-F690-4095-B9E9-2A2E4BA9C426Q27653998-5F17401B-8A41-4C4E-A735-598A1CD098C3Q27657734-B92A912D-D6AE-4B64-ACCB-748733B6193AQ27660992-BC7850AD-5916-4507-8C4F-81C506E22CCCQ27661741-7FDE6410-02A7-4263-867B-63EF5E5D9219Q27677825-48DDFEC6-19CA-452F-BB4E-827BDFB0F8E9Q27678469-66B95632-658B-47A5-9EC1-376C4DD80559Q27679219-4FE1C168-8030-440E-B10A-B523613B418BQ27681644-0B3F7D3A-4120-416B-85D2-EB724D52F479Q27727995-E5A24988-1CCD-459D-BA30-EC181A904D13Q28118905-0A24C512-D2E4-49C3-83C8-6101EAD45ED5Q29620895-3885AA54-CC64-4514-809A-CE64A6897242Q33687913-C15E5320-3D28-4C14-9C2E-BA44DA10CDB2Q34120510-151B1778-2209-4E12-B447-B899AB6381B1Q34585464-E75E6994-6ADC-4E04-8BDD-C319F68B19ADQ35543082-A3972B7E-5275-452D-8B22-9A701B79E027Q36099992-B263F1DE-2651-44A7-8386-3D58D073C733Q36398682-1EFBE574-1868-4C55-8859-D4F4CEB60EB1Q36409005-F300A938-0A43-4EB3-AE27-51AB73DF1F9BQ36686819-752711C4-9D31-42BE-A247-C95FC3EB9CF2Q37207461-753867EB-D33B-4B8E-9788-4E446606E45BQ37612504-16132DF5-B72D-4749-A282-C937F34CD22AQ38271870-2B598DE3-3021-4324-82F7-8A8FA4F56645Q40285047-4463115E-B3BF-42CE-A105-52837867EEABQ42428124-8AD355C9-7C39-411C-A47E-FFEF9A93398EQ48944454-78CE37D3-B360-4131-A3A2-F09E3C303FC4Q48954677-9B34B4AB-404E-4FA6-9DA2-D93C29B6C54CQ56931087-64F4CCF3-F451-44CB-BD23-C237F7570933Q56931222-EA9CC6C1-A232-4164-9A0A-15FCF3D36A23Q59133448-69F2817A-8EC5-4246-9BC6-9D0B2FBA7A80Q64104208-B50E3839-9AB8-4DDA-81DA-DD2C13DA8B62Q64258184-04D26605-9A89-45F3-B3B0-CF7486994620Q92465281-A3B3D48D-0DB7-4B5F-BD4A-2F303EBA78B1
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Thomas S. Walter
@ast
Thomas S. Walter
@en
Thomas S. Walter
@es
Thomas S. Walter
@nl
Thomas S. Walter
@sl
type
label
Thomas S. Walter
@ast
Thomas S. Walter
@en
Thomas S. Walter
@es
Thomas S. Walter
@nl
Thomas S. Walter
@sl
prefLabel
Thomas S. Walter
@ast
Thomas S. Walter
@en
Thomas S. Walter
@es
Thomas S. Walter
@nl
Thomas S. Walter
@sl
P1053
S-8636-2017
P106
P1153
56284592300
P21
P31
P3829
P496
0000-0002-0030-7235