Abstract: The present application relates to anti-TIGIT antibodies or antigen binding fragments thereof, nucleic acid encoding the same, therapeutic compositions thereof, and their use to enhance T-cell function to upregulate cell-mediated immune responses and for the treatment of T cell dysfunctional disorders, such as tumor immunity, for the treatment of infectious diseases and cancer.

Abstract: The present invention provides novel isolated ARP/BRP polynucleotides and the membrane-associated or secreted polypeptides encoded by the ARP/BRP polynucleotides. Also provided are ARP and BRP protein multimers. Further provided are the antibodies that immunospecifically bind to a ARP/BRP polypeptide or any derivative, variant, mutant or fragment of the ARP/BRP polypeptide, a ARP/BRP multimer polynucleotide or antibody. The invention additionally provides methods in which the ARP/BRP polypeptide, multimer, polynucleotide and antibody are utilized in the detection and treatment of a broad range of pathological states, e.g. reproductive disorder, as well as to other uses.

Abstract: The present invention provides novel isolated ARP/BRP polynucleotides and the membrane-associated or secreted polypeptides encoded by the ARP/BRP polynucleotides. Also provided are ARP and BRP protein multimers. Further provided are the antibodies that immunospecifically bind to a ARP/BRP polypeptide or any derivative, variant, mutant or fragment of the ARP/BRP polypeptide, a ARP/BRP multimer polynucleotide or antibody. The invention additionally provides methods in which the ARP/BRP polypeptide, multimer, polynucleotide and antibody are utilized in the detection and treatment of a broad range of pathological states, e.g. reproductive disorder, as well as to other uses.

Abstract: The present invention provides novel isolated ARP/BRP polynucleotides and the membrane-associated or secreted polypeptides encoded by the ARP/BRP polynucleotides. Also provided are ARP and BRP protein multimers. Further provided are the antibodies that immunospecifically bind to a ARP/BRP polypeptide or any derivative, variant, mutant or fragment of the ARP/BRP polypeptide, a ARP/BRP multimer polynucleotide or antibody. The invention additionally provides methods in which the ARP/BRP polypeptide, multimer, polynucleotide and antibody are utilized in the detection and treatment of a broad range of pathological states, e.g. reproductive disorder, as well as to other uses.

Abstract: The present invention provides novel isolated ARP/BRP polynucleotides and the membrane-associated or secreted polypeptides encoded by the ARP/BRP polynucleotides. Also provided are ARP and BRP protein multimers. Further provided are the antibodies that immunospecifically bind to a ARP/BRP polypeptide or any derivative, variant, mutant or fragment of the ARP/BRP polypeptide, a ARP/BRP multimer polynucleotide or antibody. The invention additionally provides methods in which the ARP/BRP polypeptide, multimer, polynucleotide and antibody are utilized in the detection and treatment of a broad range of pathological states, e.g. reproductive disorder, as well as to other uses.

Abstract: Cultured mammalian cells transfected with new vectors comprising full-length or partial .alpha. and .beta. subunit genomic DNA sequences produce significantly higher levels of dimeric glycoprotein hormone than do cells transfected with .alpha. and .beta. subunit cDNA sequences. In cases where only the cDNA clones are available, the cDNA sequences can be used in new expression vectors comprising introns or other important genomic regions from a homologous or heterologous source.

Abstract: Cultured mammalian cells transfected with new vectors comprising full-length or partial .alpha. and .beta. subunit genomic DNA sequences produce significantly higher levels of dimeric glycoprotein hormone than do cells transfected with .alpha. and .beta. subunit cDNA sequences. In cases where only the cDNA clones are available, the cDNA sequences can be used in new expression vectors comprising introns or other important genomic regions from a homologous or heterologous source.

Abstract: Cultured mammalian cell transfected with new vectors comprising full-length or partial .alpha. and .beta. subunit genomic DNA sequences produce significantly higher levels of dimeric glycoprotein hormone than do cells transfected with .alpha. and .beta. subunit cDNA sequences. In cases where only the cDNA clones are available, the cDNA sequences can be used in new expression vectors comprising introns or other important genomic regions from a homologous or heterologous source.

Abstract: Cultured mammalian cells transfected with new vectors comprising full-length or partial .alpha. and .beta. subunit genomic DNA sequences produce significantly higher levels of dimeric glycoprotein hormone than do cells transfected with .alpha. and .beta. subunit cDNA sequences. In cases where only the cDNA clones are available, the cDNA sequences can be used in new expression vectors comprising introns or other important genomic regions from a homologous or heterologous source.