about
Metabolic Precursor of Cholesterol Causes Formation of Chained Aggregates of Liquid-Ordered Domains.Pore formation in lipid membrane I: Continuous reversible trajectory from intact bilayer through hydrophobic defect to transversal pore.Pore formation in lipid membrane II: Energy landscape under external stress.Influenza virus Matrix Protein M1 preserves its conformation with pH, changing multimerization state at the priming stage due to electrostatics.Line Activity of Ganglioside GM1 Regulates the Raft Size Distribution in a Cholesterol-Dependent Manner.Switching between Successful and Dead-End Intermediates in Membrane Fusion.Undulations Drive Domain Registration from the Two Membrane Leaflets.Elastic Membrane Deformations Govern Interleaflet Coupling of Lipid-Ordered Domains.Galimzyanov et al. Reply.Lateral Membrane Heterogeneity Regulates Viral-Induced Membrane Fusion during HIV Entry.Residence time of singlet oxygen in membranesLateral stress profile and fluorescent lipid probes. FRET pair of probes that introduces minimal distortions into lipid packingMembrane Elastic Deformations Modulate Gramicidin A Transbilayer Dimerization and Lateral ClusteringAnalytical calculation of the lipid bilayer bending modulusElastic deformations of bolalipid membranesCyclopentane rings in hydrophobic chains of a phospholipid enhance the bilayer stability to electric breakdownArchaeal cyclopentane fragment in a surfactant's hydrophobic tail decreases the Krafft pointContinuum Models of Membrane Fusion: Evolution of the Theory
P50
Q40090184-8E20FA5E-BC7A-4ADD-BC7E-5EF7DF939167Q41859983-710DE9B3-0BC0-4734-A5C4-AE9A6858EE29Q42235335-6BB9B9F5-F229-42BE-A253-4E379C66704EQ45323909-DF5ABEEE-59A3-4971-B4D2-F8F3387E9DD0Q47227047-9EB3065C-E53A-40A2-9BBD-4363DB4E5713Q47281813-DB5FCEF6-A647-4A4C-B4CC-F9E998B1FB4AQ51169259-D13EFE1C-ED2D-4154-B2C2-9F97DC55434EQ53730176-FEAC6EEE-D9E3-487A-AC91-534913114AA5Q54960184-A0FE2637-E598-4521-8CD3-FCC03670C3B6Q55279091-A910C99C-3571-4D8A-B989-C0C8DACDA4D1Q58726335-34B84DA6-F7B2-4F69-8F8A-F2133E304BD2Q59261338-ADD00216-1EF1-4999-BB1E-F07C19A530F2Q59261339-A1517BFC-C201-46C7-9226-F83BBDB6FE97Q59261359-B10B2D84-6B50-4453-AC78-FC0A5E33D7AAQ59261361-12CF13DF-A6D9-44E6-863E-3ECC4C3CA876Q90251398-AF38E666-F2FA-465F-9A51-C70D95F1AD5DQ92622973-A6E4A41D-D093-42E2-9D6D-2674323815ADQ96114721-812D89F4-D92D-4E0B-9C23-39A4879A8704
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Timur R Galimzyanov
@nl
Timur R Galimzyanov
@sl
Timur R. Galimzyanov
@en
Timur R. Galimzyanov
@es
type
label
Timur R Galimzyanov
@nl
Timur R Galimzyanov
@sl
Timur R. Galimzyanov
@en
Timur R. Galimzyanov
@es
prefLabel
Timur R Galimzyanov
@nl
Timur R Galimzyanov
@sl
Timur R. Galimzyanov
@en
Timur R. Galimzyanov
@es
P106
P1153
40461243700
P31
P496
0000-0002-4115-5127