Abstract: An in vitro method that allows detection of hepatitis C by detecting hepatitis C virus (HCV) core protein and antibodies to HCV core protein (anti-core antibodies) in a single assay is provided. Cross-reactivity is eliminated in the method preferably by utilizing short peptides, each of which has an amino acid sequence that corresponds to an immunodominant region of the native core protein but which does not wholly encompass the epitope bound by the antibodies utilized in the method. The method can be used to detect the presence of HCV in a subject, and/or to determine the suitability of donor blood or blood products for transfusion purposes. Also provided are diagnostic kits for carrying out the method and a process for selecting suitable capture peptides and monoclonal antibodies for use in the combination method.

Abstract: An in vitro method that allows detection of hepatitis C by detecting hepatitis C virus (HCV) core protein and antibodies to HCV core protein (anti-core antibodies) in a single assay is provided. Cross-reactivity is eliminated in the method preferably by utilizing short peptides, each of which has an amino acid sequence that corresponds to an immunodominant region of the native core protein but which does not wholly encompass the epitope bound by the antibodies utilized in the method. The method can be used to detect the presence of HCV in a subject, and/or to determine the suitability of donor blood or blood products for transfusion purposes. Also provided are diagnostic kits for carrying out the method and a process for selecting suitable capture peptides and monoclonal antibodies for use in the combination method.

Abstract: An in vitro method that allows detection of hepatitis C by detecting hepatitis C virus (HCV) core protein and antibodies to HCV core protein (anti-core antibodies) in a single assay is provided. Cross-reactivity is eliminated in the method preferably by utilizing short peptides, each of which has an amino acid sequence that corresponds to an immunodominant region of the native core protein but which does not wholly encompass the epitope bound by the antibodies utilized in the method. The method can be used to detect the presence of HCV in a subject, and/or to determine the suitability of donor blood or blood products for transfusion purposes. Also provided are diagnostic kits for carrying out the method and a process for selecting suitable capture peptides and monoclonal antibodies for use in the combination method.

Abstract: An in vitro method that allows detection of hepatitis C by detecting hepatitis C virus (HCV) core protein and antibodies to HCV core protein (anti-core antibodies) in a single assay is provided. Cross-reactivity is eliminated in the method preferably by utilizing short peptides, each of which has an amino acid sequence that corresponds to an immunodominant region of the native core protein but which does not wholly encompass the epitope bound by the antibodies utilized in the method. The method can be used to detect the presence of HCV in a subject, and/or to determine the suitability of donor blood or blood products for transfusion purposes. Also provided are diagnostic kits for carrying out the method and a process for selecting suitable capture peptides and monoclonal antibodies for use in the combination method.

Abstract: An improved process for the preparation of antigenic protein conjugates is provided. The conjugates preferably are formed through reaction with one or more free sulfhydryl groups in the antigenic protein. The process of the present invention preferably employs a trialkylphosphine as the reducing agent and allows for reduction of disulfide bonds in the antigenic protein and conjugation with a conjugate moiety, preferably in a single reaction vessel (i.e. “in situ”) because the process optimally does not require the removal of the reducing agent before subsequent addition of the sulfhydryl reactive agent. Antigenic protein conjugates prepared by the in situ process and their use in diagnostic immunoassays are also provided.

Abstract: An improved process for the preparation of antigenic protein conjugates is provided. The conjugates preferably are formed through reaction with one or more free sulfhydryl groups in the antigenic protein. The process of the present invention preferably employs a trialkylphosphine as the reducing agent and allows for reduction of disulfide bonds in the antigenic protein and conjugation with a conjugate moiety, preferably in a single reaction vessel (i.e. “in situ”) because the process optimally does not require the removal of the reducing agent before subsequent addition of the sulfhydryl reactive agent. Antigenic protein conjugates prepared by the in situ process and their use in diagnostic immunoassays are also provided.

Abstract: An in vitro method that allows detection of hepatitis C by detecting hepatitis C virus (HCV) core protein and antibodies to HCV core protein (anti-core antibodies) in a single assay is provided. Cross-reactivity is eliminated in the method preferably by utilizing short peptides, each of which has an amino acid sequence that corresponds to an immunodominant region of the native core protein but which does not wholly encompass the epitope bound by the antibodies utilized in the method. The method can be used to detect the presence of HCV in a subject, and/or to determine the suitability of donor blood or blood products for transfusion purposes. Also provided are diagnostic kits for carrying out the method and a process for selecting suitable capture peptides and monoclonal antibodies for use in the combination method.

Abstract: The invention relates to post-transfusional non-A non-B hepatitis viral polypeptide, DNA sequences encoding such viral polypeptide, expression vectors containing such DNA sequences, and hosts transformed by such expression vectors. The invention also relates to the use of such polypeptides in diagnostic assays and vaccine formulations.

Abstract: A baculovirus transfer vector incorporates a restriction site into which a foreign gene may be cloned a short distance downstream of the N-terminus of the polyhedrin gene body and the natural ATG translation start codon for the polyhedrin gene is not provided such that the N-terminal polyhedrin coding sequence prior to the restriction site is retained but not capable of being translated.