about
Lactose binding to galectin-1 modulates structural dynamics, increases conformational entropy, and occurs with apparent negative cooperativityNMR structural analysis ofSleeping Beautytransposase binding to DNAGeneralized concentration dependence of globular protein self-diffusion coefficients in aqueous solutions.Topomimetics of amphipathic beta-sheet and helix-forming bactericidal peptides neutralize lipopolysaccharide endotoxinsDDE transposases: Structural similarity and diversityAntitumor agent calixarene 0118 targets human galectin-1 as an allosteric inhibitor of carbohydrate bindingGalectin-1 is essential in tumor angiogenesis and is a target for antiangiogenesis therapyThe folding of the specific DNA recognition subdomain of the sleeping beauty transposase is temperature-dependent and is required for its binding to the transposon DNA.Structural aspects of binding of α-linked digalactosides to human galectin-1Discovery and development of anti-angiogenic peptides: A structural link.Lactose binding to human galectin-7 (p53-induced gene 1) induces long-range effects through the protein resulting in increased dimer stability and evidence for positive cooperativity.NMR structure, conformational dynamics, and biological activity of PsDef1 defensin from Pinus sylvestris.Intermittent hypoxia leads to functional reorganization of mitochondria and affects cellular bioenergetics in marine molluscs.Theoretical and Experimental Investigation of the Translational Diffusion of Proteins in the Vicinity of Temperature-Induced Unfolding Transition.The heterodimerization of platelet-derived chemokines.Structure of Scots pine defensin 1 by spectroscopic methods and computational modeling.The nociceptin pharmacophore site for opioid receptor binding derived from the NMR structure and bioactivity relationships.Design of a partial peptide mimetic of anginex with antiangiogenic and anticancer activity.Disrupting functional interactions between platelet chemokines inhibits atherosclerosis in hyperlipidemic mice.1H, 13C, and 15N backbone and side-chain chemical shift assignments for the 29 kDa human galectin-1 protein dimer.Cloning an artificial gene encoding angiostatic anginex: From designed peptide to functional recombinant protein.Effect of Intrinsic Disorder and Self-Association on the Translational Diffusion of Proteins: The Case of α-Casein.NMR solution structure of the RED subdomain of the Sleeping Beauty transposase.Dynamics and thermodynamic properties of CXCL7 chemokine.Measuring protein self-diffusion in protein-protein mixtures using a pulsed gradient spin-echo technique with WATERGATE and isotope filtering.1H, 13C, and 15N backbone and side-chain chemical shift assignments for the 31 kDa human galectin-7 (p53-induced gene 1) homodimer, a pro-apoptotic lectinSelf-diffusion and self-association of lysozyme molecules in solutionHeat capacities and a snapshot of the energy landscape in protein GB1 from the pre-denaturation temperature dependence of backbone NH nanosecond fluctuationsPlatelet factor 4 and interleukin-8 CXC chemokine heterodimer formation modulates function at the quaternary structural levelRigidity and flexibility characteristics of DD[E/D]-transposases Mos1 and Sleeping BeautyEffect of Reducing Agent TCEP on Translational Diffusion and Supramolecular Assembly in Aqueous Solutions of α-Casein
P50
Q27660053-74E9284C-F90F-4631-AC84-88617B072AA0Q27680621-2CF70C6A-BACB-40A2-9F29-E2A772B703DFQ32058576-13E1F108-DE66-46DC-A90A-0AE8C1DAFAD0Q33267137-DF0E2F17-860A-4AC0-9AAC-CEE8127DC051Q34124977-1BCE0D9D-5CAD-43D1-908C-34F3C28956C2Q34564173-B3AB0758-7F89-4493-9C52-847E0DBCDF14Q35127584-E0647C6E-FA2A-4E5C-9339-50C2CFBBFA40Q35398560-8B705BDB-7560-4F92-8663-ACA1DF808818Q35559685-DF54469D-4E5D-4DB1-BC3A-3581451CB117Q35636379-A5434B2C-C259-423B-B548-FC2910BAB632Q36716840-27AE464E-35CE-4C51-9297-8CF0BE6C4B9EQ38772932-77652E65-0C1C-47B2-944F-952736F0E1F5Q39291847-F5573141-A4F7-4FEB-A14D-3D94FAEA2B68Q39390516-A211A157-826B-4DB0-9E6B-073B8D82A4C8Q39547480-7CC6E0AA-E094-4769-BFA3-D2505B27108DQ40189129-05EB3EDD-929E-47CA-A3AD-B3E99B831302Q40481224-2865D701-F05A-4BDD-A135-644F4AA23092Q40639238-39562259-9009-4F40-B169-094C5F3CF460Q43489161-EF4D277E-78CC-437A-86BE-B169525ACE66Q44717498-2F2DCE54-0813-4B4E-B015-B9A1168B56E6Q45884507-516E88D0-B3CB-448B-9078-D6BDF805B4F1Q48356371-DF5EB1E1-4C9A-4F31-8B85-2D4A4331756FQ48360065-132ABF53-12F1-4812-918B-CAB18324BA5FQ51799173-10C0E9DA-2278-4990-ACF7-E631446DB437Q52006437-41FDDD81-D980-43C0-B125-9E11A14C36B1Q62620606-EBF89233-9F14-4C25-A621-AAB4F65AB9EDQ74590990-E4A352EB-DC1A-4B50-A14A-C9C060566408Q78632509-A811A8B5-61FB-449D-BA92-9F0175BA3E00Q80975325-30E362F3-E8B1-4DDA-A0C6-4ABA5695EDC2Q90737631-0CC78503-CA3B-441D-ABE6-799B75119574Q91793339-0EF3FA2E-8590-4443-9843-65007ABD3F3F
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Irina Nesmelova
@ast
Irina Nesmelova
@en
Irina Nesmelova
@es
Irina Nesmelova
@nl
Irina Nesmelova
@sl
Irina Wladislawowna Nesmelowa
@de
Ирина Владиславовна Несмелова
@ru
type
label
Irina Nesmelova
@ast
Irina Nesmelova
@en
Irina Nesmelova
@es
Irina Nesmelova
@nl
Irina Nesmelova
@sl
Irina Wladislawowna Nesmelowa
@de
Ирина Владиславовна Несмелова
@ru
altLabel
Irina Nesmelowa
@de
Irina Vladislavovna Nesmelova
@en
prefLabel
Irina Nesmelova
@ast
Irina Nesmelova
@en
Irina Nesmelova
@es
Irina Nesmelova
@nl
Irina Nesmelova
@sl
Irina Wladislawowna Nesmelowa
@de
Ирина Владиславовна Несмелова
@ru
P106
P1153
7003334661
P21
P31
P496
0000-0002-1835-1533