A simple and general method for determining the protein and nucleic acid content of viruses by UV absorbance
about
Raman spectroscopic signatures of echovirus 1 uncoating.A kinase chaperones hepatitis B virus capsid assembly and captures capsid dynamics in vitro.Encapsidated atom-transfer radical polymerization in Qβ virus-like nanoparticlesStructural organization of pregenomic RNA and the carboxy-terminal domain of the capsid protein of hepatitis B virus.An examination of the electrostatic interactions between the N-terminal tail of the Brome Mosaic Virus coat protein and encapsidated RNAs.In vitro quantification of the relative packaging efficiencies of single-stranded RNA molecules by viral capsid protein.Phase diagrams map the properties of antiviral agents directed against hepatitis B virus core assemblyConstruction and characterization of virus-like particles: a review.Maximizing exosome colloidal stability following electroporation.Core protein: A pleiotropic keystone in the HBV lifecycle.Hydrophobic pocket targeting probes for enteroviruses.Single Particle Observation of SV40 VP1 Polyanion-Induced Assembly Shows That Substrate Size and Structure Modulate Capsid Geometry.Capsid-Damaging Effects of UV Irradiation as Measured by Quantitative PCR Coupled with Ethidium Monoazide Treatment.Genetically altering the thermodynamics and kinetics of hepatitis B virus capsid assembly has profound effects on virus replication in cell culture.HBV RNA pre-genome encodes specific motifs that mediate interactions with the viral core protein that promote nucleocapsid assembly.Production of Well-Characterized Virus-like Particles in an Escherichia coli-Based Expression Platform for Preclinical Vaccine Assessments.In vitro assembly of an empty picornavirus capsid follows a dodecahedral path.Structurally similar woodchuck and human hepadnavirus core proteins have distinctly different temperature dependences of assembly.Nucleotide-type chemical shift assignment of the encapsulated 40 kbp dsDNA in intact bacteriophage T7 by MAS solid-state NMR.Scaffold properties are a key determinant of the size and shape of self-assembled virus-derived particlesDifferential assembly of Hepatitis B Virus core protein on single- and double-stranded nucleic acid suggest the dsDNA-filled core is spring-loaded.Light Absorptive Properties of Articular Cartilage, ECM Molecules, Synovial Fluid, and Photoinitiators as Potential Barriers to Light-Initiated Polymer Scaffolding Procedures.Measuring Ultra-low Levels of Nucleotide Biomarkers Using Quartz Crystal Microbalance and SPR Microarray Imaging Methods: A Comparative Analysis.Laboratory evolution of virus-like nucleocapsids from nonviral protein cages
P2860
Q30362789-3F439F7F-6981-4EE5-B319-41BF0054EBE1Q34082677-D8CFC199-F711-401A-9962-B4A05C15736AQ34104230-3808C96F-5A19-4AFF-A902-B59E17B0C912Q34426465-FAB63FEA-DB72-4964-9B47-FA1DDAF86573Q35989615-D0DF79D4-A0CC-4176-A3EC-A3F20094D831Q36363906-B18DE1B0-4422-47A0-9B48-B0CD5B2F006CQ36667005-DBCD9AEB-7D96-4F2A-9D41-EB0D63794198Q38045834-E10F84EF-93A4-47FA-8E57-6CCCE21CF988Q38275601-63FE0AB3-2E97-46E5-BC5E-F9E5E323FD22Q38541052-32E9B555-98BD-4A2C-89A2-62BDDE60B6B2Q38829970-BC16E705-66C1-4022-8992-31E08FB89D2AQ38890643-6A9B6643-CAEF-4B68-84FB-F2B4E12EA75AQ38967762-F7EB3C06-EC39-42D0-A248-E2786FB10F2DQ39217491-C63591A6-BC3D-4AE2-AEA7-EBE6413E974AQ40154580-B5D3915A-175D-4C91-B4A6-8FDA07DAFBB4Q40801586-79491DE9-2558-47A7-92BF-377A0748E230Q41169581-A1A5E2AD-2182-403F-9EEB-2947A8E8A18EQ41607431-00431DC4-27B0-4D7A-AA9C-90257E7A323FQ41608328-BF2597A5-824D-4F9C-AD40-0835B104202DQ42264819-911EAC22-BF5B-410E-A8F2-CB874290B866Q43279175-C7D79525-2052-4170-9CE0-2745D2BC7A71Q46348210-905C9A8A-B092-4B1F-BB07-F1FA3DF8B28CQ47692195-CDAA541B-6DE7-46E0-B604-879929E1860CQ56890260-008931B3-AB2D-4059-A591-5416117292C7
P2860
A simple and general method for determining the protein and nucleic acid content of viruses by UV absorbance
description
2010 nî lūn-bûn
@nan
2010 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
A simple and general method fo ...... nt of viruses by UV absorbance
@ast
A simple and general method fo ...... nt of viruses by UV absorbance
@en
A simple and general method fo ...... nt of viruses by UV absorbance
@nl
type
label
A simple and general method fo ...... nt of viruses by UV absorbance
@ast
A simple and general method fo ...... nt of viruses by UV absorbance
@en
A simple and general method fo ...... nt of viruses by UV absorbance
@nl
prefLabel
A simple and general method fo ...... nt of viruses by UV absorbance
@ast
A simple and general method fo ...... nt of viruses by UV absorbance
@en
A simple and general method fo ...... nt of viruses by UV absorbance
@nl
P2860
P1433
P1476
A simple and general method fo ...... nt of viruses by UV absorbance
@en
P2093
J Zachary Porterfield
P2860
P304
P356
10.1016/J.VIROL.2010.08.015
P407
P577
2010-09-17T00:00:00Z