about
Structural model of the hUbA1-UbcH10 quaternary complex: in silico and experimental analysis of the protein-protein interactions between E1, E2 and ubiquitinRGDechi-hCit: αvβ3 selective pro-apoptotic peptide as potential carrier for drug delivery into melanoma metastatic cellsCullin3-BTB interface: a novel target for stapled peptidesThe interaction of heme with plakortin and a synthetic endoperoxide analogue: new insights into the heme-activated antimalarial mechanism.Zinc to cadmium replacement in the prokaryotic zinc-finger domain.A practical route to β(2,3)-amino acids with alkyl side chainsNovel thiol- and thioether-containing amino acids: cystathionine and homocysteine families.Deciphering the zinc coordination properties of the prokaryotic zinc finger domain: The solution structure characterization of Ros87 H42A functional mutant.Structure-based design of a potent artificial transactivation domain based on p53.Novel sulfur and selenium containing bis-alpha-amino acids from 4-hydroxyproline.Design and Evolution of a Macrocyclic Peptide Inhibitor of the Sonic Hedgehog/Patched Interaction.Straightforward entry to S-glycosylated fmoc-amino acids and their application to solid phase synthesis of glycopeptides and glycopeptidomimetics.A Combined NMR and Computational Approach to Determine the RGDechi-hCit-αv β3 Integrin Recognition Mode in Isolated Cell MembranesIntegrin-targeting with peptide-bioconjugated semiconductor-magnetic nanocrystalline heterostructuresInvestigation of the Best Conditions to Obtain c(RGDfK) Peptide on Solid PhaseStructural Zn(II) Implies a Switch from Fully Cooperative to Partly Downhill Folding in Highly Homologous ProteinsThe (unusual) aspartic acid in the metal coordination sphere of the prokaryotic zinc finger domain
P50
Q21090578-9BEDC2FC-F325-4A6C-A105-D28DF1A57E31Q28543148-CE83B4AA-77C2-40E5-A6B7-3264DFB9DB20Q35596110-7BAD5243-E988-4B3D-B239-9FA4CBD3917FQ37739450-31FFBDB8-BD1A-41C9-9744-52E887F41AC1Q38310799-CA27C4D2-4689-4996-9014-0F78C208C175Q41991216-F592479C-ADA5-4B35-BAE3-02F21D35B7D0Q44007940-5C1062DF-EEC4-4B22-83F8-BAACA1A51359Q44551205-EBC051F5-DA83-4FBB-AE38-835CBB831CB5Q45278025-4CF77407-1782-4EE8-B797-9F797CDE3446Q46123156-13EDE2E1-AFAD-4A4D-AB7A-91AC582E9C51Q48009081-355DD8B3-15EA-4088-9AC7-54775D3B4D0DQ51014511-EE04B83B-58A9-4A83-9D82-66364DBBE0AAQ57599807-9EEE88C3-3208-4A84-8DA4-D1E7214D3AA1Q57599815-41372314-A117-4BEF-BAF8-CCA7D61B22F4Q57599842-B51E3DF8-105E-411E-8D0E-F030B54B6A73Q57956898-16CCD884-6078-4DE2-8CA4-18EAAA3E1485Q89310714-8911A68F-A8A3-4D88-9F12-83B3CE4A1C94
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ivan de Paola
@ast
Ivan de Paola
@en
Ivan de Paola
@es
Ivan de Paola
@nl
Ivan de Paola
@sl
type
label
Ivan de Paola
@ast
Ivan de Paola
@en
Ivan de Paola
@es
Ivan de Paola
@nl
Ivan de Paola
@sl
prefLabel
Ivan de Paola
@ast
Ivan de Paola
@en
Ivan de Paola
@es
Ivan de Paola
@nl
Ivan de Paola
@sl
P1053
B-6867-2017
P106
P1153
36016391000
P21
P31
P3829
P496
0000-0003-1508-6591