The present invention relates to a method for producing a single cell clone of an insect cell comprising integrated into the genome of the cell at least one expression cassette for inducible expression of parvoviral Rep 78 and 52 proteins. The insect cells can be used for the production of parvoviral vectors by transfection constructs comprising parvoviral Cap and ITR sequences. Single cell clones obtained in the methods of the invention can be expanded for into a cell bank for the production of clinical grade parvoviral gene therapy vectors.

A recombinant baculovirus displaying on its envelop a fusion protein is disclosed. The fusion protein comprises a heterologous antigen, and a C-terminal region of baculovirus envelope GP64 protein, which has at least 100 amino acid residues in length and lacks a B12D5 binding epitope located within the central basic region of the GP64 protein. The genome of the recombinant baculovirus comprises a transgene encoding a fusion protein that comprises a signal peptide, the heterologous antigen, and the C-terminal region of the baculovirus envelope GP64 protein, in which the antigen is located between the signal peptide and the C-terminal region of the GP64 protein. Methods for eliciting an antigen-specific immunogenic response in a subject in need thereof are also disclosed.

gp64 is the major envelope glycoprotein of baculoviruses. The present invention relates to novel proteins that specifically bind to the baculovirus envelope protein gp64. The novel proteins of the present invention are advanced and powerful tools because they allow precise capturing of gp64 in affinity chromatography. The gp64 binding proteins are particularly useful tools within the process of protein production (e.g. vaccine production) to provide for gp64 free samples. Further, the binding protein for gp64 are useful for methods to analyze the presence of gp64.

Reagents and methods are provided that allow for an improved expression of a recombinant protein. More specifically, the introduction of recombinant DNA elements into a host cell allows for the increased expression of a recombinant protein, an improvement of the correct folding of said protein and an increase in cell viability and proliferation of the host cell, These recombinant DNA elements can be introduced into host cells, for example, via a recombinant baculovirus, which has incorporated said elements. The recombinant DNA elements include nucleic acids encoding transcriptional regulators, such as IE-0 and IE-1, transcriptional enhancer elements, such as the homologous region (hr) and promoters.

A recombinant baculovirus expression vector or cell comprising an engineered baculovirus fp25k gene with one to three modified or mutated spots, the modified spots comprise the two 7-adenine mononucleotide repeats (MNR) and the 10.sup.th TTAA site. The invention also provides the method of making the vector and baculovirus.

The present invention may be included in the field of biotechnology and it covers the improved production of recombinant proteins in insect cells or insect larvae as biofactories by a novel expression cassette. This expression cassette comprises nucleic acid sequences such as promoters, homologous regions (hr) as enhancers, and sequences encoding transcriptional regulators, for example, the baculovirus Ac-ie-01 cDNA, or any combination thereof, which are able to increase the quality and production efficiency of the recombinant proteins. Moreover, the present invention is also directed to the vectors themselves comprising the above mentioned nucleic acid sequences of the invention, cells or insects infected, transformed or transfected with those sequences or vectors, and methods for producing the recombinant proteins by using the aforesaid sequences, vectors, cells or insects.

Reagents and methods are provided that allow for an improved expression of a recombinant protein in an insect, More specifically, the introduction of recombinant DNA elements into an insect larva allows for the increased expression of a recombinant protein, an improvement of the correct folding of said protein and an increase in the survival rate after infection of the insect These recombinant DNA elements can be introduced, for example, into insect larvae via a recombinant baculovirus, which has incorporated said elements. The recombinant DNA elements include nucleic acids encoding transcriptional regulators, such as IE-0 and IE-1, transcriptional, enhancer elements, such as the homologous region (hr) and promoters.

Provided herein are recombinant viruses and/or insect cells suitable for detecting the infection of a pathogen in a biological sample of a test subject. The information derived from the detection may also be used to render a diagnosis on whether the test subject is infected with the pathogen or not, so that proper course of treatment may be assigned to the subject. Also provided herein is a vaccine for the prophylaxis and/or treatment of infection caused by the pathogen.

A production method for a crystal of a crystalline protein, the method including a step of inducing expression of a crystalline protein in Escherichia coli into which an expression construct of the crystalline protein has been introduced, and incubating the Escherichia coli for a predetermined time until a crystal of the crystalline protein is formed inside the Escherichia coli, and a crystal structure analysis method including a step of subjecting a crystal produced by the above-described production method to an X-ray crystal structure analysis together with the Escherichia coli, are useful as technologies for conveniently producing and analyzing a crystal of a protein.