Abstract: Polynucleotides encoding hepatitis B virus (HBV) core antigen and polymerase antigen, and related combinations are described. Also described are vectors, such as DNA plasmids or viral vectors, expressing the HBV core and polymerase antigens, and immunogenic compositions containing the expression vectors. Methods of inducing an immune response against HBV or treating a HBV-induced disease, particularly in individuals having chronic HBV infection, using the immunogenic compositions are also described.

Abstract: Methods and apparatus for the reproducible, consistent and efficacious delivery of an HBV vaccine to a subject. The disclosure comprises apparatus for the controlled administration of the HBV vaccine through an orifice to the subject, a plurality of penetrating electrodes arranged with a predetermined spatial relationship relative to the orifice, and an electrical signal generator operatively connected to the electrodes.

Abstract: Polynucleotides encoding hepatitis B virus (HBV) core antigen and polymerase antigen, and related combinations are described. Also described are vectors, such as DNA plasmids or viral vectors, expressing the HBV core and polymerase antigens, and immunogenic compositions containing the expression vectors. Methods of inducing an immune response against HBV or treating a HBV-induced disease, particularly in individuals having chronic HBV infection, using the immunogenic compositions are also described.

Abstract: Provided herein are Modified Vaccinia Ankara (MVA) vectors and adenovirus vectors encoding HBV antigens. Also provided are methods of enhancing an immune response in a human subject by utilizing the MVA and adenovirus vectors encoding HBV antigens in a prime/boost regimen to the enhance the immune response in the human subject.

Abstract: Provided herein are Modified Vaccinia Ankara (MVA) vectors and adenovirus vectors encoding HBV antigens. Also provided are methods of enhancing an immune response in a human subject by utilizing the MVA and adenovirus vectors encoding HBV antigens in a prime/boost regimen to the enhance the immune response in the human subject.

Abstract: Polynucleotides encoding hepatitis B virus (HBV) core antigen and polymerase antigen, and related combinations are described. Also described are vectors, such as DNA plasmids or viral vectors, expressing the HBV core and polymerase antigens, and immunogenic compositions containing the expression vectors. Methods of inducing an immune response against HBV or treating a HBV-induced disease, particularly in individuals having chronic HBV infection, using the immunogenic compositions are also described.

Abstract: Provided herein are Modified Vaccinia Ankara (MVA) vectors and adenovirus vectors encoding HBV antigens. Also provided are methods of enhancing an immune response in a human subject by utilizing the MVA and adenovirus vectors encoding HBV antigens in a prime/boost regimen to the enhance the immune response in the human subject.

Abstract: Polynucleotides encoding hepatitis B virus (HBV) core antigen and polymerase antigen, and related combinations are described. Also described are vectors, such as DNA plasmids or viral vectors, expressing the HBV core and polymerase antigens, and immunogenic compositions containing the expression vectors. Methods of inducing an immune response against HBV or treating a HBV-induced disease, particularly in individuals having chronic HBV infection, using the immunogenic compositions are also described.

Abstract: Methods and apparatus for the reproducible, consistent and efficacious delivery of an HBV vaccine to a subject. The disclosure comprises apparatus for the controlled administration of the HBV vaccine through an orifice to the subject, a plurality of penetrating electrodes arranged with a predetermined spatial relationship relative to the orifice, and an electrical signal generator operatively connected to the electrodes.

Abstract: This invention provides an isolated mutant atpE protein and departing from said mutant atpE protein the identification of an ATPase binding domain. This invention also provides related nucleic acids, vectors, host cells, pharmaceutical compositions and articles of manufacture. This invention further provides methods for determining whether a test compound interacts with an atpE protein, i.e. with the ATPase binding domain of the present invention, as well as pharmaceuticals compositions comprising said test compound, in particular as antimicrobials, more particular as antimycobacterial agent, even more particular for treating tuberculosis in a subject.

Abstract: This invention provides an isolated mutant atpE protein and departing from said mutant atpE protein the identification of an ATPase binding domain. This invention also provides related nucleic acids, vectors, host cells, pharmaceutical compositions and articles of manufacture. This invention further provides methods for determining whether a test compound interacts with an atpE protein, i.e. with the ATPase binding domain of the present invention, as well as pharmaceuticals compositions comprising said test compound, in particular as antimicrobials, more particular as antimycobacterial agent, even more particular for treating tuberculosis in a subject.

Abstract: This invention provides an isolated mutant atpE protein and departing from said mutant atpE protein the identification of an ATPase binding domain. This invention also provides related nucleic acids, vectors, host cells, pharmaceutical compositions and articles of manufacture. This invention further provides methods for determining whether a test compound interacts with an atpE protein, i.e. with the ATPase binding domain of the present invention, as well as pharmaceuticals compositions comprising said test compound, in particular as antimicrobials, more particular as antimycobacterial agent, even more particular for treating tuberculosis in a subject.

Abstract: This invention provides an isolated mutant atpE protein and departing from said mutant atpE protein the identification of an ATPase binding domain. This invention also provides related nucleic acids, vectors, host cells, pharmaceutical compositions and articles of manufacture. This invention further provides methods for determining whether a test compound interacts with an atpE protein, i.e. with the ATPase binding domain of the present invention, as well as pharmaceuticals compositions comprising said test compound, in particular as antimicrobials, more particular as antimycobacterial agent, even more particular for treating tuberculosis in a subject.

Abstract: A method and apparatus for clustering polypeptide sequences, and in particular transmembrane proteins, is disclosed. Intra-membrane regions are isolated and the amino acid labels replaced with one or more physical/chemical parameters. The resulting data vectors are analysed using a clustering technique based on correlation between the data vectors, for example using aglomerative hierarchical clustering.