";s:4:"text";s:5130:" The MS2 RNA was quantified (copies per ml) with a genomic MS2 RNA purchased from Roche Diagnostics (Mannheim, Germany). and D.A.K.
A consequence of this work was to evaluate a novel particle counting instrument, the Bacteriophage MS2 is a 275 Å RNA virus that infects male Isolation of viral coat protein mutants with altered assembly and aggregation properties.Tertiary treatment using microfiltration and UV disinfection for water reclamation.Alternative disinfectants for drinking water treatment.Testing the equivalency of ultraviolet light and chlorine for disinfection of wastewater to reclamation standards.Effect of testing method on apparent activities of antiviral disinfectants and antiseptics.Expression and immunogenicity of a liver stage malaria epitope presented as a foreign peptide on the surface of RNA-free MS2 bacteriophage capsids.Multiple presentation of foreign peptides on the surface of an RNA-free spherical bacteriophage capsid.Armored RNA technology for production of ribonuclease-resistant viral RNA controls and standards.Encapsidation of heterologous RNAs by bacteriophage MS2 coat protein.Use of fusions to viral coat proteins as antigenic carriers for vaccine development.Peptide display on live MS2 phage restrictions at the RNA genome level.A great deal is known about the MS2 bacteriophage. Furthermore, we seek to evaluate a novel instrument, the Characterization of purified MS2 bacteriophage by the physical counting methodology used in the integrated virus detection system (IVDS).Passage of MS2 bacteriophage through various molecular weight filters.Purification of MS2 bacteriophage from complex growth media and resulting analysis by the integrated virus detection system (IVDS).The total molecular weight of MS2 has been previously determined by classical light scattering (3.6 × 10Comparison of two serologically distinct ribonucleic acid bacteriophages.Purification and properties of bacteriophage MS2 and of its ribonucleic acid.The use of small-angle neutron scattering for the determination of molecular weight has been described in detail (Determination of molecular weight by neutron scattering.SANS provides unique information on the structure and function of biological macromolecules in solution.Advances in structure analysis using small-angle scattering in solution.SANS provides unique information on the structure and function of biological macromolecules in solution.Structure and composition of influenza virus.
Electron microscopy and computer modeling.Determination of molecular weight by neutron scattering.Tertiary treatment using microfiltration and UV disinfection for water reclamation.SANS provides unique information on the structure and function of biological macromolecules in solution.Cleavage of structural proteins during the assembly of the head of bacteriophage T4.Effect of spermidine on the RNA-A protein complex isolated from the RNA bacteriophage MS2.Absolute intensity and molecular weight determination of samples containing small amounts of impurities.Alternative disinfectants for drinking water treatment.Multiple presentation of foreign peptides on the surface of an RNA-free spherical bacteriophage capsid.Determination of diffusion coefficients and molecular weights of ribonucleic acids and viruses.Controlled alterations in the physical and biochemical properties of R17 bacteriophage induced by guanidine hydrochloride.Testing the equivalency of ultraviolet light and chlorine for disinfection of wastewater to reclamation standards.Comparison of two serologically distinct ribonucleic acid bacteriophages.Armored RNA technology for production of ribonuclease-resistant viral RNA controls and standards.Isolation of viral coat protein mutants with altered assembly and aggregation properties.Encapsidation of heterologous RNAs by bacteriophage MS2 coat protein.GNOM—a program package for small-angle scattering data processing.Localization of a protein in the RNA-A complex of RNA phage MS2.Use of fusions to viral coat proteins as antigenic carriers for vaccine development.Purification and properties of bacteriophage MS2 and of its ribonucleic acid.Advances in structure analysis using small-angle scattering in solution.Neutron scattering study of the solution structure of bacteriophages PF1 and Fd.Purification, crystallization and preliminary X-ray data of the bacteriophage MS2.Three dimensional structure of the bacterial virus MS2.Characterization of purified MS2 bacteriophage by the physical counting methodology used in the integrated virus detection system (IVDS).Passage of MS2 bacteriophage through various molecular weight filters.Purification of MS2 bacteriophage from complex growth media and resulting analysis by the integrated virus detection system (IVDS).Effect of testing method on apparent activities of antiviral disinfectants and antiseptics.Improved method for counting virus and virus like particles.Received in revised form:
