The present disclosure relates to a novel murine parvovirus, sequences encoded thereby, and applications therefor. In one embodiment the disclosure provides a method for detecting the presence of a parvovirus in a sample, comprising detecting one or more nucleic acids or polypeptides derived from the parvovirus, or antibodies against the parvovirus, in the sample. Also provided are vectors and host cells comprising sequences encoded by the parvovirus and related sequences. Also provided are animal models of kidney disease associated with infection by the parvovirus.

Disclosed is a novel means of simultaneously detecting a human parvovirus B19 antigen and an IgM type anti-human parvovirus B19 antibody. The method of simultaneously detecting a human parvovirus B19 antigen and an IgM type anti-human parvovirus B19 antibody in a sample according to the present invention comprises bringing a sample into contact with (1) a 1st probe for detecting the parvovirus B19 antigen and (2) a 2nd probe for detecting the IgM type anti-parvovirus B19 antibody in the presence of a surfactant within the same reaction.

The present invention provides methods of detecting analytes using particles having different physico-chemical properties, such as buoyancy, size, density, spectral characteristics, and/or binding properties, in solution-based sandwich assays and solution-based competition assays. The methods can be performed using rotors and bench-top centrifuges and provide for rapid, qualitative and quantitative detection of analytes. The present invention also provides kits that can be used to perform the methods, and mixtures containing particles suitable for the methods.

The invention provides adeno-associated virus (AAV) Factor VIII (FVIII)-encoding/expressing vectors and virus, including AAV FVIII vectors with high expression activity and AAV FVIII vectors that express full-length or truncated functional FVIII protein. The invention also relates to methods of making the herein described AAV FVIII vectors, recombinant AAV FVIII virus particles comprising or expressing such vectors, associated pharmaceutical formulations comprising the same and therapeutic uses thereof.

Provided herein are methods of measuring the qualitative and/or quantity attributes of gene therapy vector preparations. In certain embodiments, the gene therapy vector preparations are AAV preparations (e.g., AAV8). In certain embodiments the methods comprise determining the potency or dose of the AAV preparation using ELISA or ELISA in combination with CryoTEM.

The invention provides adeno-associated virus (AAV) Factor VIII (FVIII)-encoding/expressing vectors and virus, including AAV FVIII vectors with high expression activity and AAV FVIII vectors that express full-length or truncated functional FVIII protein. The invention also relates to methods of making the herein described AAV FVIII vectors, recombinant AAV FVIII virus particles comprising or expressing such vectors, associated pharmaceutical formulations comprising the same and therapeutic uses thereof.

The present invention concerns a novel human erythroid progenitor cell line, wherein at least 90% of the cells are CD36.sup.+ CD44.sup.?CD71.sup.+; and wherein the cells:do not express the gene encoding the receptor of Granulocyte-macrophage colony-stimulating factor (GM-CSF-R gene) or express GM-CSF-R gene at a lower level than the cells of human UT-7/Epo-S1 cell line; andexpress the gene encoding the receptor of erythropoietin (Epo-R gene). The present invention also concerns the uses thereof for producing, detecting, or quantifying parvovims B19. The present invention allows the use of the cell lines for 1) a highly sensitive B19 infectious particles detection, and, 2) the efficient production of infectious B19 particles.

The present invention relates to a method o f quantifying the amount of Mock Virus Particles (MVP) removed from a solution as a result of processing that solution through a purification technique. This method involves the steps of adding MVP to a solution, processing the solution through a purification technique, quantifying the amount of MVP removed from the solution. The present invention also relates to a kit that can be used in conjunction with the method. This kit will comprise at least one stock solution of MVP and at least one quantification solution.

The invention provides adeno-associated virus (AAV) Factor VIII (FVIII)-encoding/expressing vectors and virus, including AAV FVIII vectors with high expression activity and AAV FVIII vectors that express full-length or truncated functional FVIII protein. The invention also relates to methods of making the herein described AAV FVIII vectors, recombinant AAV FVIII virus particles comprising or expressing such vectors, associated pharmaceutical formulations comprising the same and therapeutic uses thereof.

The present invention relates to a method of quantifying the amount of Mock Virus Particles (MVP) removed from a solution as a result of processing that solution through a purification technique. This method involves the steps of adding MVP to a solution, processing the solution through a purification technique, quantifying the amount of MVP removed from the solution. The present invention also relates to a kit that can be used in conjunction with the method. This kit will comprise at least one stock solution of MVP and at least one quantification solution.