Abstract: The present invention relates to a method of purifying whole HCV particles, the method comprising the steps of a) providing a cell culture supernatant comprising virus particles, b) purification and/or concentration of the cell culture supernatant, c) purification and/or concentration of the product of above step b) using steric exclusion chromatography (SXC) at alkaline pH in the range of 8-10, d) purification and/or concentration of the product of above step c) using sulphated cellulose membrane absorbers (SCMA), e) obtaining purified whole virus particles.

Abstract: The present invention relates to nucleic acid sequences that encode hepatitis C viruses (HCV) of genotype 6a that are useful in the fundamental research of HCV as well as in the search of antivirals and vaccines against HCV. In particular, the present invention relates to nucleic acid sequences that comprises HCVs, which are capable of expressing said virus when transfected into cells and are capable of replication or infectivity in cultured cells.

Abstract: The present invention relates to nucleic acid sequences that encode hepatitis C viruses (HCV) that are useful in the fundamental research of HCV as well as in the search of a vaccine against HCV. In particular the present invention relates to nucleic acid sequences that comprises HCVs which are capable of expressing said virus when transfected into cells and are capable of infectivity in vivo.

Abstract: The present invention relates to methods for obtaining a whole virus vaccine candidate stock. The present invention also relates to an inactivated whole virus vaccine candidate stock that can be used for vaccination purposes as well as development of novel high titer virus, which is the preferred virus for this technique.

Abstract: The present invention relates to nucleic acid sequences that encode hepatitis C viruses (HCV) of genotype 2b that are useful in the fundamental research of HCV as well as in the search of a vaccine against HCV. In particular the present invention relates to nucleic acid sequences that comprises HCVs, which are capable of expressing said virus when transfected into cells and are capable of infectivity in vivo.

Abstract: The present invention relates to hepatitis C virus (HCV) culture systems of genotypes 1a, 3a, 4a, 5a, and 6a that directly contribute to HCV drug and vaccine development, to HCV basic research and better-individualized treatment of HCV infected patients.

Abstract: The present invention relates to molecular approaches to the production of nucleic acid sequences, which comprises the genome of infectious hepatitis C virus. In particular, the invention provides nucleic acid sequences which comprise the genomes of infectious hepatitis C viruses of either genotype 3a (strain S52) or genotype 4a (strain ED43). The invention therefore relates to the use of the nucleic acid sequences and polypeptides encoded by all or part of the sequences in the development of vaccines and diagnostic assays for HCV and in the development of screening assays for the identification of antiviral agents for HCV. The invention therefore also relates to the use of viral particles derived from laboratory animals infected with S52 and ED43 viruses.

Abstract: The present invention relates to nucleic acid sequences that encode hepatitis C viruses (HCV) that are useful in the fundamental research of HCV as well as in the search of a vaccine against HCV. In particular the present invention relates to nucleic acid sequences that comprises HCVs which are capable of expressing said virus when transfected into cells and are capable of infectivity in vivo.

Abstract: The present invention relates to methods for obtaining a whole virus vaccine candidate stock. The present invention also relates to an inactivated whole virus vaccine candidate stock that can be used for vaccination purposes as well as development of novel high titer virus, which is the preferred virus for this technique.

Abstract: The present invention relates to molecular approaches to the production of nucleic acid sequences, which comprises the genome of infectious hepatitis C virus. In particular, the invention provides nucleic acid sequences which comprise the genomes of infectious hepatitis C viruses of either genotype 3a (strain S52) or genotype 4a (strain ED43). The invention therefore relates to the use of the nucleic acid sequences and polypeptides encoded by all or part of the sequences in the development of vaccines and diagnostic assays for HCV and in the development of screening assays for the identification of antiviral agents for HCV. The invention therefore also relates to the use of viral particles derived from laboratory animals infected with S52 and ED43 viruses.

Abstract: The present invention relates to molecular approaches to the production of nucleic acid sequences, which comprises the genome of infectious hepatitis C virus. In particular, the invention provides nucleic acid sequences which comprise the genomes of infectious hepatitis C viruses of either genotype 3a (strain S52) or genotype 4a (strain ED43). The invention therefore relates to the use of the nucleic acid sequences and polypeptides encoded by all or part of the sequences in the development of vaccines and diagnostic assays for HCV and in the development of screening assays for the identification of antiviral agents for HCV. The invention therefore also relates to the use of viral particles derived from laboratory animals infected with S52 and ED43 viruses.

Abstract: The present invention relates to hepatitis C virus (HCV) culture systems of genotypes 1a, 3a, 4a, 5a, and 6a that directly contribute to HCV drug and vaccine development, to HCV basic research and better-individualized treatment of HCV infected patients.

Abstract: The present inventors developed hepatitis C virus recombinants expressing NS5A from genotype 1a, 1b, 2a, 3a, 4a, 5a, 6a or 7a in the context of a genotype 2a backbone. Additional recombinants express NS5A and the structural proteins (Core, E1 and E2), p7 and NS2 from genotype 1a, 1b, 3a, 4a, 5a, 6a or 7a in the genotype 2a backbone. Sequence analysis of the recombinants recovered after viral passage in Huh7.5 cells revealed adaptive mutations in NS5A and/or NS3. The importance of these mutations for improved growth kinetics was shown in reverse genetic studies.

Abstract: The present invention relates to nucleic acid sequences that encode hepatitis C viruses (HCV) of genotype 2b that are useful in the fundamental research of HCV as well as in the search of a vaccine against HCV. In particular the present invention relates to nucleic acid sequences that comprises HCVs, which are capable of expressing said virus when transfected into cells and are capable of infectivity in vivo.

Abstract: The present invention relates to nucleic acid sequences that encode hepatitis C viruses (HCV) that are useful in the fundamental research of HCV as well as in the search of a vaccine against HCV. In particular the present invention relates to nucleic acid sequences that comprises HCVs which are capable of expressing said virus when transfected into cells and are capable of infectivity in vivo.

Abstract: The present invention relates to nucleic acid sequences that encode hepatitis C viruses (HCV) that are useful in the fundamental research of HCV as well as in the search of a vaccine against HCV. In particular the present invention relates to nucleic acid sequences that comprises HCVs which are capable of expressing said virus when transfected into cells and are capable of infectivity in vivo.

Abstract: The present invention relates to molecular approaches to the production of nucleic acid sequences, which comprises the genome of infectious hepatitis C virus. In particular, the invention provides nucleic acid sequences which comprise the genomes of infectious hepatitis C viruses of either genotype 3a (strain S52) or genotype 4a (strain ED43). The invention therefore relates to the use of the nucleic acid sequences and polypeptides encoded by all or part of the sequences in the development of vaccines and diagnostic assays for HCV and in the development of screening assays for the identification of antiviral agents for HCV. The invention therefore also relates to the use of viral particles derived from laboratory animals infected with S52 and ED43 viruses.

Abstract: A robust and genetically stable cell culture system for Hepatitis C Virus (HCV) genotype 3a is provided. A genotype 3a/2a (S52/JFH1) recombinant containing the structural genes (Core, E1, E2), p7 and NS2 of strain S52 was constructed and characterized in Huh7.5 cells. S52/JFH1 and J6/JFH viruses passaged in cell culture had comparable growth kinetics and yielded similar peak HCV RNA titers and infectivity titers. Direct genome sequencing of cell culture derived S52/JFH1 viruses identified putative adaptive mutations in Core, E2, p7, NS3, and NS5A; clonal analysis revealed that all genomes analyzed exhibited different combinations of these mutations. Finally, viruses resulting from transfection with RNA transcripts of five S52/JFH1 recombinants containing these combinations of putative adaptive mutations performed as efficiently as J6/JFH viruses in Huh7.5 cells and were all genetically stable after viral passage.

Abstract: The present invention relates to molecular approaches to the production of nucleic acid sequences, which comprises the genome of infectious hepatitis C virus. In particular, invention provides nucleic acid sequences which comprise the genomes of infectious hepatitis C viruses of either genotype 3a (strain S52) or genotype 4a (strain ED43). The invention therefore relates to the use of the nucleic acid sequences and polypeptides encoded by all or part of the sequences in the development of vaccines and diagnostic assays for HCV and in the development of screening assays for the identification of antiviral agents for HCV. The invention therefore also relates to the use of viral particles derived from laboratory animals infected with S52 and ED43 viruses.

Abstract: The present inventors used the previously developed H77/JFH 1T27OOC,A4O8OT (1a/2a), J4/JFH 1T2996C,A4827T,?HVRI (1b/2a), J6/JFH 1?HVRI (2a/2a), J8/JFH 1?HVRI (2b/2a), S52/JFH 1T27i8G,?7i6oc (3a/2a), SA13/JFH 1C34O5G,A3696G (5a/2a) and HK6a/JFH 1T1389c,A1590G (6a/2a) constructs for the deletion of Hypervariable Region 1 (HVR1) to construct viable, JFH 1 (genotype 2a) based, genomes. The present inventors serially passaged the viruses in cell culture obtaining relatively high HCV RNA titers and infectivity titers. Sequence analysis of the viruses identified mutations adapting H77/JFH 1T27OOC,A4O8OT,?HVR1 (1a/2a), J8/JFH 1?HVR1 (2b/2a), S52/JFH 1T2718G,T716OC,?HVR1 (3a/2a) and J4/JFH 1T2996C,A4827T,?HVR1 (1b/2a) to the HVR1 deletion.