Nonlinear finite-element analysis of nanoindentation of viral capsids.
about
Conformational dynamics data bank: a database for conformational dynamics of proteins and supramolecular protein assembliesFluctuating Nonlinear Spring Model of Mechanical Deformation of Biological ParticlesMajor capsid reinforcement by a minor protein in herpesviruses and phage.Squeezing protein shells: how continuum elastic models, molecular dynamics simulations, and experiments coalesce at the nanoscale.Nanoindentation of 35 virus capsids in a molecular model: relating mechanical properties to structure.Viral capsid equilibrium dynamics reveals nonuniform elastic properties.Modeling Viral Capsid Assembly.Imaging and force measurement of LDL and HDL by AFM in air and liquidSwelling and softening of the cowpea chlorotic mottle virus in response to pH shiftsMechanics of bacteriophage maturationHigh-resolution mass spectrometry of viral assemblies: molecular composition and stability of dimorphic hepatitis B virus capsids.Biophysics of viral infectivity: matching genome length with capsid size.Scaffold expulsion and genome packaging trigger stabilization of herpes simplex virus capsidsVibrational dynamics of icosahedrally symmetric biomolecular assemblies compared with predictions based on continuum elasticityInfluence of lamin A on the mechanical properties of amphibian oocyte nuclei measured by atomic force microscopy.Elucidating the mechanism behind irreversible deformation of viral capsids.Geometric localization of thermal fluctuations in red blood cells.Competition between Bending and Internal Pressure Governs the Mechanics of Fluid Nanovesicles.Biomedical and Catalytic Opportunities of Virus-Like Particles in Nanotechnology.Nanoparticle-induced morphological transition of Bombyx mori nucleopolyhedrovirus: a novel method to treat silkworm grasserie disease.Static and dynamic hidden symmetries of icosahedral viral capsids.Imperfection sensitivity of pressured buckling of biopolymer spherical shells.Prestress strengthens the shell of Norwalk virus nanoparticles.Nonuniform elastic properties of macromolecules and effect of prestrain on their continuum nature.Modeling and simulation of the mechanical response from nanoindentation test of DNA-filled viral capsids.Interplay between the mechanics of bacteriophage fibers and the strength of virus-host links.Influence of nonuniform geometry on nanoindentation of viral capsids.Force measurements on natural membrane nanovesicles reveal a composition-independent, high Young's modulus.How rigid are viruses.A critical assessment of finite element modeling approach for protein dynamics.Curating viscoelastic properties of icosahedral viruses, virus-based nanomaterials, and protein cages.Post-buckling of a pressured biopolymer spherical shell with the mode interaction.Compressive Force Spectroscopy: From Living Cells to Single Proteins.Contact Mechanics of a Small Icosahedral Virus.The RNA-binding protein of a double-stranded RNA virus acts like a scaffold proteinForce to Unbind Ligand-Receptor Complexes and the Internal Rigidity of Globular Proteins Probed by Single-Molecule Force Spectroscopy
P2860
Q24613963-229F0D01-F866-44B6-8299-3E7765141486Q27316776-EB9EFDE6-02B5-482D-AEF3-ED58CF37F36DQ34044440-565ED7E3-7415-4694-ABF1-2A6BDA5CAD50Q34062249-DF345297-1968-4AC4-B9AB-23B1AD70A4F2Q34778579-95473986-8621-4698-A42D-430D374FF0BDQ35051229-6E77985E-4A24-420B-8752-70EA0A2D748DQ35052591-33146B8D-CC6C-494E-95C7-541FF195BED2Q35435940-6F14567A-A419-4DAB-B212-DB3166E32F90Q35636182-FD31875E-26B9-4A56-9A69-0A8D4E78917DQ35787131-0640D93E-058B-4121-B1CC-11AE494AF343Q36756811-84939823-9BE8-4F27-B962-C67BEDE3A81DQ37142304-1E96529B-4D45-4577-9455-837B3892B0A2Q37238943-01C8DF68-273D-4E34-B404-A6218A88B568Q37263647-B827DD6F-3661-4BAD-96CF-08954C97402DQ37265569-D81D9D5A-A5F7-4ECC-92FD-18321951F4E3Q37373455-4860EB8F-B798-4A7B-8EBE-8F304C146631Q37711572-DC705DDA-CC06-4BB4-958B-9CC9D7E78729Q37728045-868509F1-7B65-4387-B200-3210CA55FDE5Q39068831-9144E6B3-5351-4E75-9CAB-B35B7A3391D2Q39165934-2B9B005C-CBCE-41A3-AE6A-7CDD2C1D5A80Q40082539-DE49AD51-9DED-458A-9889-06670A5E8017Q40651826-8E6FE8D1-9C1E-4534-95E8-0D6E490329FAQ40762621-68A73AC3-9E92-4FFA-A2B4-C8805F6A522DQ40913820-31F75DAB-BC94-4A33-B70C-F461129A3796Q40972782-58A42813-23AC-42C9-91BF-3F28F7A805F9Q41685369-3911F7EA-E438-424A-BF3A-CD111FC2D10BQ41841067-48D28EE8-2E0C-4462-A1F8-3246CCF64D5FQ42244176-F2E359E2-930D-488B-9E26-13B5681EB3AFQ45880764-5B072424-080A-48B0-A59E-00E58C45497EQ47820357-0E5E7B49-4BD9-4EED-B20F-4182E2E193AAQ52325495-8F953D5D-280F-42DA-BC7E-E30A6E088131Q53409146-F37B2D6C-290A-4D8D-8EAF-6E9BB0F3B36DQ54249880-C9391A56-18D2-40E4-8603-B702B5A04605Q54380888-EABE7C25-A32B-4823-9244-5B27C38CA5B3Q58031038-D816E7D6-3BD4-446F-A8FC-3135766B101EQ58824039-EC68AC11-7EDC-477B-B19F-B95016E87BC0
P2860
Nonlinear finite-element analysis of nanoindentation of viral capsids.
description
2007 nî lūn-bûn
@nan
2007 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի մարտին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Nonlinear finite-element analysis of nanoindentation of viral capsids.
@ast
Nonlinear finite-element analysis of nanoindentation of viral capsids.
@en
type
label
Nonlinear finite-element analysis of nanoindentation of viral capsids.
@ast
Nonlinear finite-element analysis of nanoindentation of viral capsids.
@en
prefLabel
Nonlinear finite-element analysis of nanoindentation of viral capsids.
@ast
Nonlinear finite-element analysis of nanoindentation of viral capsids.
@en
P2860
P1433
P1476
Nonlinear finite-element analysis of nanoindentation of viral capsids.
@en
P2093
Melissa M Gibbons
William S Klug
P2860
P304
P356
10.1103/PHYSREVE.75.031901
P407
P433
P577
2007-03-01T00:00:00Z
P698
P818
physics/0608171