The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
about
Direct measurement of the dielectric polarization properties of DNA.Resolving structure and mechanical properties at the nanoscale of viruses with frequency modulation atomic force microscopy.[Atomic force microscopy: a tool to analyze the viral cycle].Mutations at the base of the icosahedral five-fold cylinders of minute virus of mice induce 3'-to-5' genome uncoating and critically impair entry functions.Picosecond infrared laser-induced all-atom nonequilibrium molecular dynamics simulation of dissociation of viruses.Cargo-shell and cargo-cargo couplings govern the mechanics of artificially loaded virus-derived cages.Virus engineering: functionalization and stabilization.pH-Controlled two-step uncoating of influenza virus.Calcium ions modulate the mechanics of tomato bushy stunt virus.Identification of water content in nanocavities.Bacteriophage t4 nanoparticles as materials in sensor applications: variables that influence their organization and assembly on surfaces.The interplay between mechanics and stability of viral cages.Direct visualization of single virus restoration after damage in real time.Biophysical properties of single rotavirus particles account for the functions of protein shells in a multilayered virus
P2860
Q34144701-5EFC130D-63BA-4640-B4AF-F1703F32F625Q34147549-5C92F9F4-E21B-48DB-B232-6B8878DD21F3Q35658883-8267CB0A-02CF-4612-A59A-3A6A86D0E65DQ35665949-F315B072-EB3F-420D-8AE8-419E95E8D802Q35987533-AE6FFDDF-BD1E-44E1-B63E-3B23E129F5A5Q36884237-2EB34D36-903B-4F64-AA4D-1B887F57B5D7Q37798083-6995B124-1BE0-4281-9F7E-CAF6E5A06C5AQ38623080-341C496C-E637-413F-A38C-8371EF0CEFD7Q39279608-74C82BDD-2CEA-40D0-93E3-05D941617505Q41856321-8AD77197-EEFA-484D-8B3B-B6C0A273C3B0Q42049602-2C2A8EF7-C6FF-402E-9646-1F06FCBDC13AQ42241822-BED80E42-8676-41D5-A93F-832B8ADF32EFQ54236054-14638769-E5E5-44BB-B1E6-7217264CAFB5Q57016960-34E41CF3-CA35-4AA7-9C79-C23ADFB611B8
P2860
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 23 March 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
@en
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
@nl
type
label
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
@en
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
@nl
prefLabel
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
@en
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
@nl
P2093
P2860
P356
P1476
The capillarity of nanometric water menisci confined inside closed-geometry viral cages.
@en
P2093
C Carrasco
J L Carrascosa
M Castellanos
M I Marqués
P A Serena
P J de Pablo
P2860
P304
P356
10.1073/PNAS.0810095106
P407
P577
2009-03-23T00:00:00Z