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The ret proto-oncogene products (c-Ret) are expressed as 150kDa and 170kDaglycoproteins in neuroblastoma cells and as 150kDa and 190kDa glycoproteins in leukemia cells. These proteins are produced from a single polypeptide of 120kDa by posttranslational glycosylation. Although expression of the ret proto-oncogene was frequently detected in human tumors such as neuroblastoma, pheochromocytoma and thyroid medullary carcinoma, its physiological function is unknown. It turned out that the extracellular domain of the c-Ret contains a cadherin-related sequence that is
known to be important for Ca2+-dependent homophilic binding of cadherins. The homologous sequence found in the c-Ret consists of about 110 amino acids and is tandemly repeated 3 – 4 times in the extracellular domains of all vertebrate cadherins. The sequence of the c-Ret showed 20-30% identity with the member of the cadherin superfamily in the amino acid level. This suggests that possibility that the c-Ret may function as a cell adhesion molecule like cadherins. This antibody specifically recognizes human c-Ret short isoform (RET9/R787). For research use only, not for use in diagnostic procedures.
The ret proto-oncogene products (c-Ret) are expressed as 150kDa and 170kDaglycoproteins in neuroblastoma cells and as 150kDa and 190kDa glycoproteins in leukemia cells. These proteins are produced from a single polypeptide of 120kDa by posttranslational glycosylation. Although expression of the ret proto-oncogene was frequently detected in human tumors such as neuroblastoma, pheochromocytoma and thyroid medullary carcinoma, its physiological function is unknown. It turned out that the extracellular domain of the c-Ret contains a cadherin-related sequence that is
known to be important for Ca2+-dependent homophilic binding of cadherins. The homologous sequence found in the c-Ret consists of about 110 amino acids and is tandemly repeated 3 – 4 times in the extracellular domains of all vertebrate cadherins. The sequence of the c-Ret showed 20-30% identity with the member of the cadherin superfamily in the amino acid level. This suggests that possibility that the c-Ret may function as a cell adhesion molecule like cadherins. This antibody specifically recognizes human c-Ret short isoform (RET9/R787). For research use only, not for use in diagnostic procedures.