Patent application number | Description | Published |
20090304750 | NOVEL PRIME-BOOST COMBINATIONS OF ATTENUATED MYCOBACTERIUM - The present invention provides vaccine compositions for effective induction of both mucosal and systemic immunity to pathogenic | 12-10-2009 |
20090305398 | Recombinant Double-Stranded RNA Phage, and Use of the Same - A recombinant double stranded RNA (dsRNA) phage expresses dsRNA-encoded genes in eukaryote cells. Recombinant dsRNA phage are useful for the expression of dsRNA expression cassettes encoding passenger genes, such as, but not restricted to, vaccine antigens, bioactive proteins, immunoregulatory proteins, antisense RNAs, and catalytic RNAs in eukaryotic cells or tissues. Methods are provided to deliver recombinant dsRNA phage to eukaryotic cells and tissues, either by direct administration, formulated in lipid or polylactide-coglycolide, or by utilizing a bacterial vaccine vector. | 12-10-2009 |
20110052628 | Recombinant Double-Stranded RNA Phage, and Use of the Same - A recombinant double stranded RNA (dsRNA) phage expresses dsRNA-encoded genes in eukaryote cells. Recombinant dsRNA phage are useful for the expression of dsRNA expression cassettes encoding passenger genes, such as, but not restricted to, vaccine antigens, bioactive proteins, immunoregulatory proteins, antisense RNAs, and catalytic RNAs in eukaryotic cells or tissues. Methods are provided to deliver recombinant dsRNA phage to eukaryotic cells and tissues, either by direct administration, formulated in lipid or polylactide-coglycolide, or by utilizing a bacterial vaccine vector. | 03-03-2011 |
Patent application number | Description | Published |
20090123438 | Multivalent Vaccines Comprising Recombinant Viral Vectors - The invention relates to vaccines comprising recombinant vectors, such as recombinant adenoviruses. The vectors comprise heterologous nucleic acids encoding for at least two antigens from one or more tuberculosis-causing bacilli. The invention also relates to the use of specific protease recognition sites linking antigens through which the encoded antigens are separated upon cleavage. After cleavage, the antigens contribute to the immune response in a separate manner. The recombinant vectors may comprise a nucleic acid encoding the protease cleaving the linkers and separating the antigens. The invention furthermore relates to the use of genetic adjuvants encoded by the recombinant vectors, wherein such genetic adjuvants may also be cleaved through the presence of the cleavable linkers and the specific protease. | 05-14-2009 |
20110256166 | Multivalent vaccines comprising recombinant viral vectors - The invention relates to vaccines comprising recombinant vectors, such as recombinant adenoviruses. The vectors comprise heterologous nucleic acids encoding for at least two antigens from one or more tuberculosis-causing bacilli. Also described is the use of specific protease recognition sites linking antigens through which the encoded antigens are separated upon cleavage. After cleavage, the antigens contribute to the immune response in a separate manner. The recombinant vectors may comprise a nucleic acid encoding the protease cleaving the linkers and separating the antigens. Further described is the use of genetic adjuvants encoded by the recombinant vectors, wherein such genetic adjuvants may also be cleaved through the presence of the cleavable linkers and the specific protease. | 10-20-2011 |
20110281347 | Multivalent vaccines comprising recombinant viral vectors - Described are vaccines comprising recombinant vectors, such as recombinant adenoviruses. The vectors comprise heterologous nucleic acids encoding at least two antigens from one or more tuberculosis-causing bacilli. Also described is the use of specific protease recognition sites linking antigens through which the encoded antigens are separated upon cleavage. After cleavage, the antigens contribute to the immune response in a separate manner. The recombinant vectors may comprise a nucleic acid encoding the protease cleaving the linkers and separating the antigens. Also described is the use of genetic adjuvants encoded by the recombinant vectors, wherein such genetic adjuvants may also be cleaved through the presence of the cleavable linkers and the specific protease. | 11-17-2011 |