about
CAVER Analyst 1.0: graphic tool for interactive visualization and analysis of tunnels and channels in protein structures.FireProt: Energy- and Evolution-Based Computational Design of Thermostable Multiple-Point MutantsFireProt: web server for automated design of thermostable proteins.Computer-Assisted Engineering of Hyperstable Fibroblast Growth Factor 2.Different Structural Origins of the Enantioselectivity of Haloalkane Dehalogenases toward Linear β-Haloalkanes: Open-Solvated versus Occluded-Desolvated Active Sites.HotSpot Wizard 3.0: web server for automated design of mutations and smart libraries based on sequence input information.CalFitter: a web server for analysis of protein thermal denaturation data.CAVER Analyst 2.0: analysis and visualization of channels and tunnels in protein structures and molecular dynamics trajectoriesSite-Specific Analysis of Protein Hydration Based on Unnatural Amino Acid FluorescenceComputational Study of Protein-Ligand Unbinding for Enzyme EngineeringConformational changes allow processing of bulky substrates by a haloalkane dehalogenase with a small and buried active siteMolecular Gating of an Engineered Enzyme Captured in Real TimeEngineering enzyme access tunnelsCaverDock: a molecular docking-based tool to analyse ligand transport through protein tunnels and channelsCaver Web 1.0: identification of tunnels and channels in proteins and analysis of ligand transportStructural Biology and Protein Engineering of ThrombolyticsCaverDock: A Novel Method for the Fast Analysis of Ligand TransportEnzymeMiner: automated mining of soluble enzymes with diverse structures, catalytic properties and stabilities
P50
Q35176321-AAF0FAC9-D4A0-4B94-A3C9-DDF6247BD7BEQ35830781-4FF1D7BF-7CC9-44B1-B548-465D0308A45BQ41511611-72723BA9-73EB-4F2D-BAE4-799744299EECQ47218835-EBB2EFB7-B7C0-4D7A-B3ED-DEBB9B247C5CQ48368998-CC338422-AEB6-4BCE-AA02-D45A5B65A02AQ55499257-B7CE12A8-18B8-4EA8-8BDA-885C8AE636BBQ55518824-8AE1A5CA-647D-4AA1-AE61-1B06A9596AD1Q57461514-66D98827-DBCC-4484-B427-EC517F529D37Q59284902-4E924302-354F-4A29-B6C1-89DC4119C272Q60916201-61284CE8-2548-4D80-9816-A6434259D4D8Q62274595-DBFE99C8-B17B-4011-80D9-698EE1C98537Q62276534-996F01F8-BD59-4C25-BF8F-F8802724C676Q91544121-259AECB3-2841-4168-B6EF-49B1DA4818FFQ91937609-7FB0751D-0A90-45D5-A324-6757014CC093Q92203022-A5A8DEFC-2B84-4652-AA03-8B42B8871E9BQ92277771-8593850B-AF4A-460E-8996-BC2C92045976Q92743995-43335257-5733-482A-A171-EDD43CDA55B9Q94553661-060D4F8D-E8B0-40E1-8B90-F7B587216989
P50
description
investigador
@es
researcher
@en
name
David Bednář
@en
type
label
David Bednář
@en
prefLabel
David Bednář
@en
P31
P496
0000-0002-6803-0340