Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, I, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the M×A promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, I, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the MxA promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, I, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the MxA promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, I, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the MxA promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, 1, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the M×A promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, I, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the MxA promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, I, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the MxA promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The present invention includes compositions and methods that include antibodies that selectively neutralize a bioactivity of at least two interferon alpha (“IFN?”) protein subtypes for the protein subtypes A, 2, B2, C, F, G, H2, 1, J1, K, 4a, 4b and WA, but does not neutralize at least one bioactivity of IFN? protein subtype D. Examples of bioactivity for measurement include activation of the MxA promoter or antiviral activity and variants, derivatives and fragments thereof. The invention also includes host cells, hybridomas and plasmacytomas that produce antibodies. Because of their unique selectivity and affinity, the antibodies of the present invention are useful to detect IFN? subtypes in sample or tissue and/or for therapeutic applications that include, but are not limited to the treatment and/or amelioration of an IFN? related disorder such as SLE, lupus, type I diabetes, psoriasis, AIDS and Graft versus Host Disease.

Abstract: The field of the invention relates in general to at least one method and apparatus for the production of soluble MHC antigens and more particularly, but not by way of limitation, to at least one method and apparatus for the production of soluble Class I and II HLA molecules. The field of the invention also includes such produced soluble Class I and II HLA molecules and their use. According to the methodology of the present invention, the soluble Class I and II HLA molecules can be produced from either gDNA or cDNA starting material.

Abstract: The present invention relates generally to a methodology for assaying the binding of a peptide to an individual, specific, soluble HLA molecule. The peptides utilized in the method may be identified by indirect methods utilizing T lymphocytes, or by a direct method of epitope discovery described herein.

Abstract: The field of the invention relates in general to at least one method and apparatus for the production of soluble MHC antigens and more particularly, but not by way of limitation, to at least one method and apparatus for the production of soluble Class I and II HLA molecules. The field of the invention also includes such produced soluble Class I and II HLA molecules and their use. According to the methodology of the present invention, the soluble Class I and II HLA molecules can be produced from either gDNA or cDNA starting material.