about
Ligand Binding Mechanism in Steroid Receptors: From Conserved Plasticity to Differential Evolutionary ConstraintsTryptogalinin is a tick Kunitz serine protease inhibitor with a unique intrinsic disorderCorrelated inter-domain motions in adenylate kinaseImproving the oxidative stability of a high redox potential fungal peroxidase by rational designComputational modeling of the catalytic reaction in triosephosphate isomerase.A binding mechanism in protein-nucleotide interactions: implication for U1A RNA bindingModeling of ligation-induced helix/loop displacements in myoglobin: toward an understanding of hemoglobin allostery.An alternative mechanism for the methylation of phosphoethanolamine catalyzed by Plasmodium falciparum phosphoethanolamine methyltransferase.Electron transfer in the P450cam/PDX complex. The QM/MM e-pathway.Peroxide-dependent formation of a covalent link between Trp51 and the heme in cytochrome c peroxidase.PELE: Protein Energy Landscape Exploration. A Novel Monte Carlo Based Technique.PELE web server: atomistic study of biomolecular systems at your fingertips.Substrate diffusion and oxidation in GMC oxidoreductases: an experimental and computational study on fungal aryl-alcohol oxidase.Electron transfer pathways in cytochrome c oxidase.Conformational response to ligand binding in phosphomannomutase2: insights into inborn glycosylation disorder.Porphyrin Binding to Gun4 Protein, Facilitated by a Flexible Loop, Controls Metabolite Flow through the Chlorophyll Biosynthetic Pathway.Vibrational resonances and CuB displacement controlled by proton motion in cytochrome c oxidase.Ligand migration in the truncated hemoglobin-II from Mycobacterium tuberculosis: the role of G8 tryptophan.Regulation of electron and proton transfer by the protein matrix of cytochrome c oxidase.A new view of the bacterial cytosol environmentMolecular interactions of prodiginines with the BH3 domain of anti-apoptotic Bcl-2 family membersStructural implications of the C-terminal tail in the catalytic and stability properties of manganese peroxidases from ligninolytic fungi.In-silico assessment of protein-protein electron transfer. a case study: cytochrome c peroxidase--cytochrome c.Quantum chemical studies of methane monooxygenase: comparision with P450.pyRMSD: a Python package for efficient pairwise RMSD matrix calculation and handling.Peripheral heme substituents control the hydrogen-atom abstraction chemistry in cytochromes P450.Combined Use of Oligopeptides, Fragment Libraries, and Natural Compounds: A Comprehensive Approach To Sample the Druggability of Vascular Endothelial Growth Factor.pyProCT: Automated Cluster Analysis for Structural Bioinformatics.Synthesis of 1-Naphthol by a Natural Peroxygenase Engineered by Directed Evolution.The role of the heme propionates in heme biochemistry.Direct observation of single DNA structural alterations at low forces with surface-enhanced Raman scattering.Mechanism of thermal decomposition of carbamoyl phosphate and its stabilization by aspartate and ornithine transcarbamoylasesNitric oxide reactivity with globins as investigated through computer simulation.Single vs. multiple ligand pathways in globins: a computational view.Electron transfer in proteins: theory, applications and future perspectives.Basidiomycete DyPs: Genomic diversity, structural-functional aspects, reaction mechanism and environmental significance.Modulating O2 reactivity in a fungal flavoenzyme: involvement of aryl-alcohol oxidase Phe-501 contiguous to catalytic histidineAtomic level rendering of DNA-drug encounter.Molecular dynamics simulations of salicylate effects on the micro- and mesoscopic properties of a dipalmitoylphosphatidylcholine bilayerIdentification of dual mTORC1 and mTORC2 inhibitors in melanoma cells: prodigiosin vs. obatoclax.
P50
Q27702878-E447E37B-6935-45AC-B385-572592FA74E2Q28487638-841FA68F-58FE-46C7-BBA0-C34B5F298D84Q28541370-D42A6269-0F2C-44B6-86EB-1047B8DDEA12Q28546844-C5098FBD-B48A-4B7E-B9BD-0A7B96EB0DABQ30340764-A6D90D51-B30D-435B-9FDB-FEA2B3F06EEBQ30350329-0F5CF5F2-5935-4A46-9C25-9EA25FF2702DQ30353946-3B24ECC3-BE87-4780-9744-55FE36F85BCCQ30367523-73CE03ED-48CB-4A0E-AD90-606A3111693AQ30372318-72320649-31A5-4E08-98A3-A82E4CB5344FQ30375233-CA61537D-3A28-4C95-8C90-BA6E57777217Q30382139-2865E012-7B1A-4545-AF50-3B22572F7E63Q30431383-2FB479AF-135A-4D0C-AC62-9F240BCB3FA0Q30484867-183B8844-DC14-4395-A874-4B1348A94385Q30502350-115DDEC7-47D2-49BB-A914-A27C819A3386Q30607614-B00A362E-6824-43AC-BEC1-31DF49CCB153Q30680024-9E8BBCDD-B797-4002-8A64-9025CF651EDEQ30953575-B00DECEC-A82A-46EF-BFA5-8579A5A312D5Q33385590-84040F58-D9CE-450D-8D25-733DC9CDD238Q33848249-16B848F8-8103-4DBA-8A42-3D46A5C4C301Q33939651-3EA858A0-1CD6-4C2C-B124-C2B208D7326CQ34608671-2AEEBCEE-0A63-4349-A217-040CBBB58BAFQ34640002-D902AE4D-5490-4560-8761-1F59CF1FF503Q34649503-79D4772D-1EAF-4D7D-A4A5-ACA32A6EA5C1Q34662130-2F194158-C923-44BF-B22C-53FC5BC1CEBCQ34813783-9784F4E6-9CC2-41A9-A2F3-9D84006589CCQ35162867-DAD3571C-62A6-4CE4-B75B-CC32F6395AD7Q35836815-685FDEAE-0640-4026-B1D1-EE9B6DE6B938Q35847155-29AFEBCF-D13E-4B72-AECF-C58EAA3582CCQ35871443-2C46E643-F129-43CB-9EB9-577A06541DE1Q36411944-A203396F-ECF9-4A6D-B6BC-0FEA0BC1EA11Q36518417-9147A849-4951-43D4-9B13-F0799EBD3E73Q36964242-06DA263F-FFA5-41DE-BC5F-05B8788987B9Q37146653-9CA6999B-D136-437C-8D00-DD387081EE0AQ38079692-EAC14C7D-4712-4458-8E79-35A966D348E1Q38128326-234B6254-53F5-412A-B3FA-EFA74646DA81Q38338551-3ADDE9B1-9AED-4FF4-B1C6-256D69639E2CQ39242684-7F94E1AC-583F-4E4F-BC32-1B43661EA3D4Q39264801-914812F4-F98F-48F3-8273-3379D79D2988Q39408569-B4B4F475-0061-409A-81FD-36CEFF8A6195Q39430909-C19B4396-0749-4F68-BF04-18A7C33DCC8E
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Victor Guallar
@ast
Victor Guallar
@en
Victor Guallar
@es
Victor Guallar
@sl
type
label
Victor Guallar
@ast
Victor Guallar
@en
Victor Guallar
@es
Victor Guallar
@sl
prefLabel
Victor Guallar
@ast
Victor Guallar
@en
Victor Guallar
@es
Victor Guallar
@sl
P1053
B-1579-2013
P106
P1153
6602697719
P21
P31
P3829
P496
0000-0002-4580-1114