摘要:
Compositions and methods for diagnosing, monitoring, or treating cancers. Genes encoding transmembrane proteins that are over-expressed in colon, lung, breast, prostate, liver, stomach, esophagus, or kidney cancer tissues are identified. These transmembrane genes can be used as biological markers for the detection or diagnosis of cancers. These genes can also serve as targets for cancer therapeutics. In addition, these genes can also be used for screening for anti-cancer drugs.
摘要:
Compositions and methods for diagnosing, monitoring, or treating cancers. Genes encoding transmembrane proteins that are over-expressed in colon, lung, breast, prostate, liver, stomach, esophagus, or kidney cancer tissues are identified. These transmembrane genes can be used as biological markers for the detection or diagnosis of cancers. These genes can also serve as targets for cancer therapeutics. In addition, these genes can also be used for screening for anti-cancer drugs.
摘要:
This invention provides compositions, organisms and methodologies employing a novel human gene encoding a protein that has sequence homology to a consensus sequence of calcineurin-like phosphoesterase family are disclosed. The novel protein is encoded by a human gene comprising 4 exons. The human gene is localized in the 10p15 locus of human chromosome 10. The sequence similarities between the novel human protein and the consensus sequence of calcineurin-like phosphoesterases indicate that the novel human protein may function as a calcineurin-like protein phosphatase.
摘要:
This invention provides compositions, organisms and methodologies employing a novel human gene encoding a protein that has sequence homology to a consensus sequence of calcineurin-like phosphoesterase family are disclosed. The novel protein is encoded by a human gene comprising 4 exons. The human gene is localized in the 10p15 locus of human chromosome 10. The sequence similarities between the novel human protein and the consensus sequence of calcineurin-like phosphoesterases indicate that the novel human protein may function as a calcineurin-like protein phosphatase.