摘要:
The present invention relates to the improved production of recombinant parvoviral virions in insect cells. In particular, the invention relates to an improved process for the production of recombinant parvoviral virions in insect cells, wherein the full/empty parvoviral virion ratio is increased. The invention also relates to the production of parvoviral vectors that may be used in gene therapy and to improvements in expression of the viral Rep proteins that increase the productivity of parvoviral vectors.
摘要:
The disclosure relates to erythroid progenitor cells and methods for producing parvovirus B 19 in the cells. The invention includes transformed and/or immortalized CD36+ erythroid progenitor cells permissive for B19 infection and methods for producing useful quantities of B 19 in the cells described herein. Infectious virus produced by the cells of the disclosure is useful for identifying and developing therapeutically effective compositions for treatment and/or prevention of human parvovirus B 19 infections.
摘要:
The present invention provides genetically-engineered parvovirus capsids and viruses designed to introduce a heterologous gene into a target cell. The parvoviruses of the invention provide a repertoire of vectors with altered antigenic properties, packaging capabilities, and/or cellular tropisms as compared with current AAV vectors.
摘要:
The present invention provides genetically-engineered parvovirus capsids and viruses designed to introduce a heterologous gene into a target cell. The parvoviruses of the invention provide a repertoire of vectors with altered antigenic properties, packaging capabilities, and/or cellular tropisms as compared with current AAV vectors.
摘要:
The present invention provides genetically-engineered parvovirus capsids and viruses designed to introduce a heterologous gene into a target cell. The parvoviruses of the invention provide a repertoire of vectors with altered antigenic properties, packaging capabilities, and/or cellular tropisms as compared with current AAV vectors.
摘要:
The present invention provides genetically-engineered parvovirus capsids and viruses designed to introduce a heterologous gene into a target cell. The parvoviruses of the invention provide a repertoire of vectors with altered antigenic properties, packaging capabilities, and/or cellular tropisms as compared with current AAV vectors.
摘要:
Provided herein are recombinant AAV (rAAV) particles comprising a nucleic acid vector comprising a parvovirus B 19p6 promoter operatively linked to a heterologous gene, such as a human globin gene, and rAAV capsid proteins comprising one or more amino acid substitutions in a surface exposed loop of the capsid protein that result, e.g., in increased P antigen binding compared to a corresponding un-mutated AAV capsid protein. Also provided are methods and compositions related to such capsid proteins, methods of targeting gene expression to a cell of erythroid lineage, methods of treating a hemoglobinopathy using such rAAV particles, and methods for efficient transduction of a host cell suspension with a rAAV.
摘要:
The invention provides a process for generating parvovirus VP1/VP2 virus like particles (VLPs). The invention further provides methods for purification of the parvovirus VLPs and immunogenic compositions that contain the VLPs. The invention also includes recombinant nucleic acid molecules that encode parvovirus VP1 and VP2, and host cells that contain the recombinant nucleic acids.
摘要:
The present invention relates to a method of producing non-infections parvovirus capsids and to diagnostic assays and vaccines utilizing same. The invention further relates to recombinant baculoviruses encoding parvovirus structural proteins and host cells infected therewith. The invention also relates to a method of packaging and delivering genetic information utilizing the noninfectious capsids.
摘要:
The present invention provides genetically-engineered parvovirus capsids and viruses designed to introduce a heterologous gene into a target cell. The parvoviruses of the invention provide a repertoire of vectors with altered antigenic properties, packaging capabilities, and/or cellular tropisms as compared with current AAV vectors.