about
Integrative Modeling of Macromolecular Assemblies from Low to Near-Atomic ResolutionConserved Structural Chemistry for Incision Activity in Structurally Non-homologous Apurinic/Apyrimidinic Endonuclease APE1 and Endonuclease IV DNA Repair EnzymesCharacterizing loop dynamics and ligand recognition in human- and avian-type influenza neuraminidases via generalized born molecular dynamics and end-point free energy calculations.Recognition of the ring-opened state of proliferating cell nuclear antigen by replication factor C promotes eukaryotic clamp-loading.Probing DNA clamps with single-molecule force spectroscopy.Alkylpurine glycosylase D employs DNA sculpting as a strategy to extrude and excise damaged basesNew insights into the GABA(A) receptor structure and orthosteric ligand binding: receptor modeling guided by experimental data.Structural mechanism of ATP-independent transcription initiation by RNA polymerase ITransmembrane peptide-induced lipid sorting and mechanism of Lalpha-to-inverted phase transition using coarse-grain molecular dynamics.A new structural framework for integrating replication protein A into DNA processing machinery.Proliferating cell nuclear antigen loaded onto double-stranded DNA: dynamics, minor groove interactions and functional implications.Solution X-ray scattering combined with computational modeling reveals multiple conformations of covalently bound ubiquitin on PCNAFunctional dynamics in replication protein A DNA binding and protein recruitment domainsUnexpected Allosteric Network Contributes to LRH-1 Co-regulator Selectivity.Distal substitutions drive divergent DNA specificity among paralogous transcription factors through subdivision of conformational space.Rational design of a protein that binds integrin αvβ3 outside the ligand binding site.Synthetic mimics of antimicrobial peptides.Opening pathways of the DNA clamps proliferating cell nuclear antigen and Rad9-Rad1-Hus1.Diamidine compounds for selective inhibition of protein arginine methyltransferase 1.Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1.Secondary Interaction Interfaces with PCNA Control Conformational Switching of DNA Polymerase PolB from Polymerization to Editing.First-principles study of aqueous hydroxide solutions.Discovery of Decamidine as a New and Potent PRMT1 Inhibitor.Relative pKa values from first-principles molecular dynamics: the case of histidine deprotonation.Natural Product Micheliolide (MCL) Irreversibly Activates Pyruvate Kinase M2 and Suppresses Leukemia.Uncovering universal rules governing the selectivity of the archetypal DNA glycosylase TDG.Hydrogen bonding in waterDynamical flexibility and proton transfer in the arginase active site probed by ab initio molecular dynamicsAb initio calculations of intramolecular parameters for a class of arylamide polymersEnzyme cofactors: double-edged sword for catalysisSimulation-Based Methods for Model Building and Refinement in Cryoelectron MicroscopyStructural visualization of RNA polymerase III transcription machineriesSmall molecule binders recognize DNA microstructural variations via an induced fit mechanismRecognition of a Key Anchor Residue by a Conserved Hydrophobic Pocket Ensures Subunit Interface Integrity in DNA ClampsTranscription preinitiation complex structure and dynamics provide insight into genetic diseases
P50
Q26777650-01D09C85-FAF5-4CB2-B160-82E9C958F7C7Q27676022-9EB50A82-A667-4685-81CE-6737B1C1B8EAQ30375636-8C19721A-FA35-4C69-B2E8-3C767071EEC1Q30494687-2DE64797-48EE-40FA-B3F3-4E6E4BE6C608Q30544116-2FDBCF13-455B-4FA2-A28A-E7933CF0FF44Q31172508-BEA7EB18-A88C-4ECB-B001-AB2957ECE19FQ33834449-3AD1CF4B-C439-43FE-A826-9732BB43AB1DQ33848730-304F60AB-4612-48D6-B547-86A2F6357F1AQ34187229-0738C9D9-5A6B-45F1-A3C7-95709275499DQ34543373-D78DB6F2-5A3E-4A3F-83B3-8236C92CE885Q35128132-A880D273-D8A7-46D9-854D-45FD5FED4CC8Q35470475-1188EDDB-3C9A-42BD-944E-FEE8ED9667E7Q35685145-1F1E4D60-BD50-453F-934A-538D4DCA2060Q36466200-6C0FA63C-DFD0-4E9E-BB13-9F1847C5B3C4Q36483218-A3338775-D52A-474B-94B1-9602080BE14EQ36974007-B8717054-F404-4C32-8EB3-3AE05582E4E9Q37100178-65432F88-93BA-483F-BA51-8A1953B6F96AQ37528719-70AED995-1EDC-4D14-9D3B-25DDBDFE60C2Q37697338-C9738515-5F6C-4CEB-B6DF-53B954E60E74Q37712232-B7C5B41B-1E0B-4087-B1F3-5921B1C6C87FQ39826342-109FDF18-4FDE-4AC6-9A9A-5B666FE58B7EQ44066219-748EE7BE-3C53-4C8A-B366-AD8C6D1245F9Q49194043-C09BF5C2-F530-4D2F-A50C-D1577261DBC2Q50093970-3440CBAD-31BF-4C8A-B8EF-D53185B853C0Q52594345-2692E073-080C-4280-8750-E3537E53E33DQ64993432-C9B40214-E160-4083-BFCD-ADF58C82A4FFQ75189718-A894384A-5C75-4459-94DC-70356F052210Q81531198-94189DD3-9B92-4A43-8671-A99D61C6DE19Q83192242-ECE227EE-9A00-4C0D-A269-E6D8FBAE2B91Q85712077-6113811D-C3F0-4960-AB81-4705755448E8Q90587267-22F74274-C10D-480C-92A4-AC82689798D3Q90791851-C8813B0F-D033-4083-B777-88CB07E8AE26Q90980523-0698A561-BABC-4800-BB0E-79B2B64679CFQ91733006-D31FC465-432B-44EE-9EE4-512450C7FCB6Q92173258-ED754A48-2B4D-4A7B-8CD8-839D058A3F06
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ivaylo Ivanov
@ast
Ivaylo Ivanov
@en
Ivaylo Ivanov
@es
Ivaylo Ivanov
@nl
Ivaylo Ivanov
@sl
type
label
Ivaylo Ivanov
@ast
Ivaylo Ivanov
@en
Ivaylo Ivanov
@es
Ivaylo Ivanov
@nl
Ivaylo Ivanov
@sl
prefLabel
Ivaylo Ivanov
@ast
Ivaylo Ivanov
@en
Ivaylo Ivanov
@es
Ivaylo Ivanov
@nl
Ivaylo Ivanov
@sl
P1053
A-7613-2013
P106
P21
P2798
P31
P3829
P496
0000-0002-5306-1005
P569
2000-01-01T00:00:00Z