Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. The ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: The present invention provides methods for preventing or reducing neuronal apoptosis, particularly wherein the apoptosis is associated with a neurodegenerative disorder in a subject.

Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. The ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: The present invention provides hypoxia inducible factor alpha muteins, DNA sequences encoding these hypoxia inducible factor alpha muteins, recombinant DNA molecules containing those DNA sequences operatively linked to expression control sequences and capable of inducing expression of an hypoxia inducible factor alpha muteins, hosts transformed with those recombinant DNA molecules, pharmaceutical compositions containing hypoxia inducible factor alpha muteins and methods of using those compositions to treat hypoxia and ischemic related tissue damage.

Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. The ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. Tie ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: The present invention provides hypoxia inducible factor alpha muteins, DNA sequences encoding these hypoxia inducible factor alpha muteins, recombinant DNA molecules containing those DNA sequences operatively linked to expression control sequences and capable of inducing expression of an hypoxia inducible factor alpha muteins, hosts transformed with those recombinant DNA molecules, pharmaceutical compositions containing hypoxia inducible factor alpha muteins and methods of using those compositions to treat hypoxia and ischemic related tissue damage.

Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. The ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: The present invention provides hypoxia inducible factor alpha muteins, DNA sequences encoding these hypoxia inducible factor alpha muteins, recombinant DNA molecules containing those DNA sequences operatively linked to expression control sequences and capable of inducing expression of an hypoxia inducible factor alpha muteins, hosts transformed with those recombinant DNA molecules, pharmaceutical compositions containing hypoxia inducible factor alpha muteins and methods of using those compositions to treat hypoxia and ischemic related tissue damage.

Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. The ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: The present invention provides hypoxia inducible factor alpha muteins, DNA sequences encoding these hypoxia inducible factor alpha muteins, recombinant DNA molecules containing those DNA sequences operatively linked to expression control sequences and capable of inducing expression of an hypoxia inducible factor alpha muteins, hosts transformed with those recombinant DNA molecules, pharmaceutical compositions containing hypoxia inducible factor alpha muteins and methods of using those compositions to treat hypoxia and ischemic related tissue damage.

Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. The ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: Light-generating fusion proteins having a ligand binding site and a light-generating polypeptide moiety and their use as diagnostics, in drug screening and discovery, and as therapeutics, are disclosed. The light-generating fusion protein has a feature where the bioluminescence of the polypeptide moiety changes upon binding of a ligand at the ligand binding site. Tie ligand may be, for example, an enzyme present in an environment only under certain conditions, e.g., ubiquitin ligase in a hypoxic state, such that the light-generating fusion protein is “turned on” only under such conditions.

Abstract: We have discovered a nuclear protein in normal human cells, "retinoblastoma-associated protein 1" ("RBAP-1") that binds directly to the retinoblastoma protein pocket of the underphosphorylated form of the retinoblastoma protein ("RB") and does not bind to phosphorylated RB or to RB with inactivating mutations. The translated RBAP-1 sequence does not resemble other proteins whose sequences are known, and RBAP-1 does not contain a sequence homologous to the transforming element common to viral proteins that bind to the RB pocket. RBAP-1 and the E2F transcription activity have similar DNA-binding specificities and can bind to at least some of the same proteins, such as RB and E4.

Abstract: We have discovered a nuclear protein in normal human cells, "retinoblastoma-associated protein 1" ("RBAP-1"), also known as E2F-1, that binds directly to the retinoblastoma protein pocket of the underphosphorylated form of the retinoblastoma protein ("RB") and does not bind to phosphorylated RB or to RB with inactivating mutations. The translated RBAP-1 sequence does not resemble other proteins whose sequences are known, and RBAP-1 does not contain a sequence homologous to the transforming element common to viral proteins that bind to the RB pocket. RBAP-1 and the E2F transcription activity have similar DNA-binding specificities and can bind to at least some of the same proteins, such as RB and E4.