Abstract: The invention provides human lyases and associated proteins (HLYAP) and polynucleotides which identify and encode HLYAP. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for diagnosing, treating, or preventing disorders associated with expression of HLYAP.

Abstract: The invention provides a human NIM1 kinase, an encoding nucleic acid molecule, and an antibody that specifically binds the protein. The invention also provides for the use of these compositions in the characterization, diagnosis, and treatment of disorders associated NIM1 kinase expression.

Abstract: The present invention provides nucleotide and amino acid sequences that identify and encode novel expressed chemokines (ECs) from liver and pituitary gland tissues. The present invention also provides for antisense molecules to the nucleotide sequences which encode ECs, expression vectors for the production of purified ECs, antibodies capable of binding specifically to ECs, hybridization probes or oligonucleotides for the detection of EC-encoding nucleotide sequences, genetically engineered host cells for the expression of ECs, diagnostic tests for inflammation or disease based on EC-encoding nucleic acid molecules or antibodies capable of binding specifically to ECs, pharmaceutical compositions to treat inflammation or disease based on EC-encoding nucleic acid molecules or antibodies capable of binding specifically to ECs.

Abstract: The invention provides a human transducin beta-1 subunit (TBS) and polynucleotides which identify and encode TBS. The invention also provides expression vectors, host cells, agonists, antibodies, and antagonists. The invention also provides methods for treating or preventing diseases associated with expression of TBS.

Abstract: The present invention provides two ATP synthase subunits (designated individually as Asy-1 and Asy-2, and collectively as Asy) and polynucleotides which identify and encode Asy. The invention also provides genetically engineered expression vectors and host cells comprising the nucleic acid sequences encoding Asy and a method for producing Asy. The invention also provides for use of Asy and agonists, antibodies, or antagonists specifically binding Asy, in the prevention and treatment of diseases associated with expression of Asy. Additionally, the invention provides for the use of antisense molecules to polynucleotides encoding Asy for the treatment of diseases associated with the expression of Asy. The invention also provides diagnostic assays which utilize the polynucleotide, or fragments or the complement thereof, and antibodies specifically binding Asy.

Abstract: The invention provides human peptidyl-prolyl isomerases (HPPIP) and polynucleotides which identify and encode HPPIP. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for diagnosing, treating or preventing disorders associated with expression of HPPIP.

Abstract: The invention provides human RNA binding proteins (RNABP) and polynucleotides which identify and encode RNABP. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for diagnosing, treating or preventing disorders associated with expression of RNABP.

Abstract: The present invention provides novel human cell division cycle proteins (collectively called HCDC) and polynucleotides which identify and encode HCDC. The invention also provides genetically engineered expression vectors and host cells comprising the nucleic acid sequences encoding HCDC. The invention also provides pharmaceutical compositions containing HCDC or antagonists to HCDC, and in the use of these compositions for the treatment of diseases associated with the expression of HCDC. Additionally, the invention provides for the use of antisense molecules to polynucleotides encoding HCDC for the treatment of diseases associated with the expression of HCDC. The invention also provides diagnostic assays which utilize the polynucleotide, or fragments or the complement thereof, to hybridize to the genomic sequence or transcripts of polynucleotides encoding HCDC or anti-HCDC antibodies which specifically bind to HCDC.

Abstract: The invention is a new human cathepsin (LCAP), the cDNAs that encode LCAP, and antibodies that specifically bind LCAP that are used in methods for diagnosing and treating disorders of cell proliferation, particularly lung cancer, as associated with expression of LCAP. The invention provides expression vectors, host cells, and methods for making LCAP and agonists, antibodies and antagonists that specifically bind the protein.

Abstract: The invention provides human hydrolase-like molecules (HHLM) and polynucleotides which identify and encode HHLM. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for treating or preventing disorders associated with expression of HHLM.

Abstract: The present invention provides a human sodium-dependent phosphate cotransporter (NAPTR) and polynucleotides which identify and encode NAPTR. The invention also provides genetically engineered expression vectors and host cells comprising the nucleic acid sequences encoding NAPTR and a method for producing NAPTR. The invention also provides for agonists, antibodies, or antagonists specifically for NAPTR. Additionally, the invention provides for the use of antisense molecules to polynucleotides encoding NAPTR for the treatment of diseases associated with the expression of NAPTR. The invention also provides diagnostic assays which utilize the polynucleotide, or fragments or the complement thereof, and antibodies specifically binding NAPTR. The invention also provides a method for treating disorders associated with decreased phosphate levels by administering NAPTR and a method for treating disorders associated with increased phosphate levels by administering antagonists to NAPTR.

Abstract: The present invention provides polynucleotides which identify and encode a novel human nm23-like protein (H-nm23). The invention provides for genetically engineered expression vectors and host cells comprising the nucleic acid sequence encoding H-nm23 and for a method for producing the protein. The invention also provides for the use of substantially purified H-nm23 for the for the treatment of diseases associated with the expression of H-nm23. The invention also describes diagnostic assays which utilize diagnostic compositions comprising the polynucleotides which hybridize with naturally occurring sequences encoding H-nm23 and antibodies which specifically bind to the protein.

Abstract: The present invention provides a novel human phosphatase inhibitor protein (HPIP) and polynucleotides which identify and encode HPIP. The invention also provides genetically engineered expression vectors and host cells comprising the nucleic acid sequences encoding HPIP and a method for producing HPIP. The invention also provides for agonists, antibodies, or antagonists specifically binding HPIP, and their use, in the prevention and treatment of diseases associated with expression of HPIP. Additionally, the invention provides for the use of antisense molecules to polynucleotides encoding HPIP for the treatment of diseases associated with the expression of HPIP. The invention also provides diagnostic assays which utilize the polynucleotide, or fragments or the complement thereof, and antibodies specifically binding HPIP.

Abstract: The invention provides human fatty acid beta-oxidation enzymes (HUFA) and polynucleotides which identify and encode HUFA. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for treating or preventing disorders associated with expression of HUFA.

Abstract: The invention provides a human aflatoxin B1 aldehyde reductase (AFB1-hAR) and polynucleotides which identify and encode AFB1-hAR. The invention also provides expression vectors, host cells, agonists, antibodies and antagonists. The invention also provides methods for treating disorders associated with expression of AFB1-hAR.

Abstract: The present invention provides a human histone-like protein (HLP) and polynucleotides which identify and encode HLP. In addition, the invention provides expression vectors and host cells, agonists, antibodies, and antagonists. The invention also provides methods for producing HTP and for treating disorders associated with the expression of HLP.

Abstract: The present invention provides a novel human anion channel (NANCH) and polynucleotides which identify and encode NANCH. The invention also provides genetically engineered expression vectors and host cells comprising the nucleic acid sequences encoding NANCH and a method for producing NANCH. The invention also provides for agonists, antibodies, or antagonists specifically binding NANCH, and their use, in the prevention and treatment of diseases associated with expression of NANCH. Additionally, the invention provides for the use of antisense molecules to polynucleotides encoding NANCH for the treatment of diseases associated with the expression of NANCH. The invention also provides diagnostic assays which utilize the polynucleotide, or fragments or the complement thereof, and antibodies specifically binding NANCH.

Abstract: The invention provides a human beta-alanine-pyruvate aminotransferase (HAPA) and polynucleotides which identify and encode HAPA. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for treating or preventing disorders associated with expression of HAPA.

Abstract: The present invention provides two novel human cathepsin proteins (HCPs) and polynucleotides encoding HCPs. The invention provides for genetically engineered expression vectors and host cells comprising the nucleic acid sequence encoding HCPs. The invention also provides for the production and use of antibodies to HCPs in pharmaceutical compositions for the treatment of disease processes that include cancers, inflammation, metastasis and peptide and proenzyme processing. In addition, the invention provides for the production and use of inhibitors of HSPs in pharmaceutical compositions for the treatment of diseases. The invention also describes diagnostic assays which utilize the polynucleotide to hybridize with the transcripts encoding HCPs. The invention also provides for the use of antisense molecules in pharmaceutical compositions as therapeutics in cancers, inflammation, metastasis and peptide and proenzyme processing.

Abstract: The invention provides human extracellular signaling molecules (EXCS) and polynucleotides which identify and encode EXCS. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for diagnosing, treating, or preventing disorders associated with expression of EXCS.