Abstract: The invention provides a human glutathione-S-transferase (HGST) and polynucleotides which identify and encode HGST. The invention also provides expression vectors, host cells, agonists, antibodies and antagonists. The invention also provides methods for treating disorders associated with expression of HGST.

Abstract: The present invention provides a human ATP synthase d subunit (ASYSD) and polynucleotides which encode ASYSD. The invention also provides expression vectors, host cells, agonists, antisense molecules, antibodies, or antagonists. The invention also provides to methods for producing ASYSD and for treating disorders associated with expression of ASYSD.

Abstract: The present invention provides a human neuronal extracellular matrix protein (HNEP) and polynucleotide which encode HNEP. The invention also provides expression vectors, host cells, agonists, antisense molecules, antibodies, or antagonists. The invention also provides methods for treating disorders associated with expression of HNEP.

Abstract: The invention provides human protein kinase molecules (HPKM) and polynucleotides which identify and encode HPKM. 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 HPKM.

Abstract: The present invention provides a human tumor suppressor (HKALL) and polynucleotides which identify and encode HKALL. The invention also provides expression vectors and host cells, agonists, antibodies, or antagonists. The invention provides methods for treating diseases associated with expression of HKALL.

Abstract: The invention provides a human N-acetylneuraminate lyase (HNANL) and polynucleotides which identify and encode HNANL. 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 HNANL.

Abstract: The present invention provides a novel protein tyrosine kinase (HPTYK) and polynucleotides which identify and encode HPTYK. The invention also provides genetically engineered expression vectors and host cells comprising the nucleic acid sequences encoding HPTYK and a method for producing HPTYK. The invention also provides pharmaceutical compositions containing HPTYK or antagonists to HPTYK, and for the use of these compositions in the treatment of diseases associated with the expression of HPTYK. Additionally, the invention provides for the use of antisense molecules to polynucleotides encoding HPTYK for the treatment of diseases associated with the expression of HPTYK. 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 HPTYK or antibodies which specifically bind to HPTYK.

Abstract: The invention provides a human DPl homolog (DPlh)) and polynucleotides which identify and encode DPlh. The invention also provides expression vectors, host cells, agonists, antibodies and antagonists. The invention also provides methods for treating disorders associated with expression of DPlh.

Abstract: The invention provides a human cell junction PDZ protein (CJPDZ) and polynucleotides which identify and encode CJPDZ. 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 CJPDZ.

Abstract: The present invention provides a polynucleotide (hhp) which identifies and encodes a novel human hyaluronidase (HHP). The invention provides for genetically engineered expression vectors and host cells comprising the nucleic acid sequence encoding HHP, and a method for making HHP with the host cells.

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

Abstract: The invention provides a human TSC-22 homolog (HTSCH) and polynucleotides which identify and encode HTSCH. The invention also provides expression vectors, host cells, agonists, antibodies and antagonists. The invention also provides methods for treating disorders associated with expression of HTSCH.

Abstract: Devices and methods are provided for precise production of arrays of microspots. A pulse jetting device is employed having a capillary of micron dimensions, with a portion of the capillary proximal to the jetting orifice circumferentially surrounded by a piezoelectric transducer. By appropriate design of the capillary, orifice and piezoelectric transducer, droplets can be formed on a surface, separated by as little as 80 microns center-to-center, and having at least about a 15 micron spacing at the border. The subject substrate arrays can be used for providing miniaturized arrays of reagents, such as nucleic acids, for detecting the presence of homologous sequences in a sample.

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

Abstract: The present invention provides a human microtubule-associated protein (hLC3) and the polynucleotides which identify and encode hLC3. The invention also provides genetically engineered expression vectors, host cells, and a method for producing hLC3. The invention also provides hLC3 as well as agonists, antibodies, and antagonists of hLC3, and the use thereof for the prevention and treatment of diseases associated with the expression of hLC3. Additionally, the invention provides for the use of antisense molecules to polynucleotides encoding hLC3 for the treatment of diseases associated with the expression of hLC3. The invention also provides diagnostic assays which utilize the polynucleotide, or fragments or the complement thereof, and antibodies specifically binding hLC3.

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

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

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

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

Abstract: The present invention provides nucleotide and amino acid sequences that identify and encode a novel serpin (CAPE) expressed in human hypothalamus. The present invention also provides for antisense molecules to the nucleotide sequences which encode CAPE, expression vectors for the production of purified CAPE, antibodies capable for binding specifically to CAPE, hybridization probes or oligonucleotides for the detection of CAPE-encoding nucleotide sequences, genetically engineered host cells for the expression of Cape, a pharmaceutical composition containing biologically active CAPE, a diagnostic test based on CAPE-encoding nucleic acid molecules, and treatment methods comprising administration of biologically active CAPE.