Abstract: The invention relates to a method for detecting accessible regions (‘a sites’) in complex RNA molecules (target RNAs), wherein nucleic acids or complexes of these nucleic acids and endonucleases associated therewith bind to the a-sites and alter the function of the target RNAs where by nucleic acids of different types (‘eNAs’) bind to the a-sites and either alone or through an associated endonuclease alter the function of this target RNA. The invention further relates to the use of the method for identifying nucleic acids of different types eNAs that bind to the a-sites and are capable of directing endonucleases, selected from AGO proteins, RNase H and Cas proteins to the a-sites of target RNAs and are capable of, in the presence or absence of these endonucleases reliably affecting/altering the function of these RNA molecules; and to eNAs and a composition containing these eNAs in pathogen control.

Abstract: The invention relates to recombinant Kluyveromyces lactis (K. lactis) yeasts which are capable of the highly efficient expression of one or more foreign proteins and are suitable for use as a vaccine for generating a protective immune response against pathogens. The invention provides in particular K. lactis strains for the targeted cloning of foreign antigen-coding nucleic acids into the yeast genome of the K. lactis strain, which is characterized in that the K. lactis strain has integrated expression cassettes for foreign antigens as an alternative or in addition to the KILAC4 locus on the KIURA3-20 locus (KLLA0E22771g) and/or on the KIMET5-1 locus (KLLA0B03938g). The invention further relates to integrative expression vectors and to methods for producing the K. lactis strains of the invention as well as to the use thereof as vaccines.

Abstract: The invention relates to recombinant Kluyveromyces lactis (K. lactis) yeasts which are capable of the highly efficient expression of one or more foreign proteins and are suitable for use as a vaccine for generating a protective immune response against pathogens. The invention provides in particular K. lactis strains for the targeted cloning of foreign antigen-coding nucleic acids into the yeast genome of the K. lactis strain, which is characterized in that the K. lactis strain has integrated expression cassettes for foreign antigens as an alternative or in addition to the KILAC4 locus on the KIURA3-20 locus (KLLA0E22771g) and/or on the KIMET5-1 locus (KLLA0B03938g). The invention further relates to integrative expression vectors and to methods for producing the K. lactis strains of the invention as well as to the use thereof as vaccines.

Abstract: The invention relates to recombinant yeasts of the Kluyveromyces lactis species for the production of a humoral immune response against defined antigens, to the production of said yeasts, and to the use thereof for protective vaccination against pathogens and malignant cells containing said antigens.

Abstract: Recombinant yeast cells are produced which are used for vaccination, among other uses for the oral vaccination by feeding.

Abstract: The construction of a chimeric Pestivirus by the identification of selected regions in the 3?NTR of the viral RNA genome is described where additional RNA sequences can be stably inserted. These sequence insertions in the viral RNA genome were stable in replication and capable of forming infectious, RNase resistant virus particles. This chimeric Pestivirus with a 3?NTR insertion can be utilized as a quality control material in analytical assays for RNA targets, including external, internal controls, quantitative standards in PCR and NAT nucleic acid assays.

Abstract: The invention relates to recombinant yeasts of the Kluyveromyces lactis species for the production of a humoral immune response against defined antigens, to the production of said yeasts, and to the use thereof for protective vaccination against pathogens and malignant cells containing said antigens.

Abstract: The invention relates to the field of nucleic acid amplification, particularly to quality control materials for use in viral RNA assays. It specifically relates to the construction of a recombinant Pestivirus by the identification of a region in the 3?NTR of the viral RNA genome where additional sequence elements can be stably inserted. Chimeric Pestivirus with sequence insertions in the 3? nontranslated region (3?NTR) of the viral RNA genome were stable in replication and capable of forming infectious, RNase resistant virus particles. This chimeric Pestivirus with a 3?NTR insertion can be utilized as a quality control material in analytical assays for RNA targets, including external, internal controls, quantitative standards in PCR and NAT nucleic acid assays.

Abstract: The construction of a chimeric Pestivirus by the identification of selected regions in the 3?NTR of the viral RNA genome is described where additional RNA sequences can be stably inserted. These sequence insertions in the viral RNA genome were stable in replication and capable of forming infectious, RNase resistant virus particles. This chimeric Pestivirus with a 3?NTR insertion can be utilized as a quality control material in analytical assays for RNA targets, including external, internal controls, quantitative standards in PCR and NAT nucleic acid assays.

Abstract: The invention relates to the field of nucleic acid amplification, particularly to quality control materials for use in viral RNA assays. It specifically relates to the construction of a recombinant Pestivirus by the identification of a region in the 3?NTR of the viral RNA genome where additional sequence elements can be stably inserted. Chimeric Pestivirus with sequence insertions in the 3? nontranslated region (3?NTR) of the viral RNA genome were stable in replication and capable of forming infectious, RNase resistant virus particles. This chimeric Pestivirus with a 3?NTR insertion can be utilized as a quality control material in analytical assays for RNA targets, including external, internal controls, quantitative standards in PCR and NAT nucleic acid assays.

Abstract: The construction of a chimeric Pestivirus by the identification of selected regions in the 3?NTR of the viral RNA genome is described where additional RNA sequences can be stably inserted. These sequence insertions in the viral RNA genome were stable in replication and capable of forming infectious, RNase resistant virus particles. This chimeric Pestivirus with a 3?NTR insertion can be utilized as a quality control material in analytical assays for RNA targets, including external, internal controls, quantitative standards in PCR and NAT nucleic acid assays.

Abstract: The invention relates to the field of nucleic acid amplification, particularly to quality control materials for use in viral RNA assays. It specifically relates to the construction of a recombinant Pestivirus by the identification of a region in the 3?NTR of the viral RNA genome where additional sequence elements can be stably inserted. Chimeric Pestivirus with sequence insertions in the 3? nontranslated region (3?NTR) of the viral RNA genome were stable in replication and capable of forming infectious, RNase resistant virus particles. This chimeric Pestivirus with a 3?NTR insertion can be utilized as a quality control material in analytical assays for RNA targets, including external, internal controls, quantitative standards in PCR and NAT nucleic acid assays.

Abstract: The present invention relates to the molecular biology and virology of the hepatitis C virus (HCV). An object of the present invention is a method to reproduce in vitro the RNA-dependent RNA polymerase activity of HCV that makes use of sequences contained in the HCV NS5B protein.

Abstract: A method of modulating viral RNA replication and translation, in a eukaryotic cell, of positive-strand viral RNA, comprising the step of contacting a viral RNA-binding protein (vRbp) with a compound that modulates an activity of said protein.

Abstract: The present invention relates to the molecular biology and virology of the hepatitis C virus (HCV). An object of the present invention is a method to reproduce in vitro the RNA-dependent RNA polymerase activity of HCV that makes use of sequences contained in the HCV NS5B protein.

Abstract: This is a method for reproducing in vitro the RNA-dependent RNA polymerase activity associated with hepatitis C virus. The method is characterized in that sequences contained in NS5B are used in the reaction mixture. The terminal nucleotidyl transferase activity, a further property of the NS5B protein, can also be reproduced using this method. The method takes advantage of the fact that the NS5B protein, either purified to apparent homogeneity or present in extracts of overproducing organisms, can catalyze the addition of ribonucleotides to the 3′-termini of exogenous or endogenous RNA molecules. The invention also relates to a composition of matter that comprises sequences contained in NS5B, and to the use of these compositions for the set up of an enzymatic test capable of selecting, for therapeutic purposes, compounds that inhibit the enzymatic activity associated with NS5B.