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  • Title: Molecular cloning and characterization of v-mos-activated transformation-associated proteins.
    Author: Chan JC, Scanlon M, Zhang HZ, Jia LB, Yu DH, Hung MC, French M, Eastman EM.
    Journal: J Biol Chem; 1992 Jan 15; 267(2):1099-103. PubMed ID: 1370458.
    Abstract:
    Using monoclonal antibodies we previously detected two forms of transformation-associated proteins, a 64-kDa protein and a 68-kDa protein, in temperature-sensitive 110-Moloney murine sarcoma virus-mutant-transformed rat kidney 6m2 cells. The identity and functions of the transformation-associated proteins were previously unknown. By molecular cloning techniques and immunoscreening, we have isolated two cDNA clones (34A and 79B3) that were found by Western blot analysis to code for a monoclonal anti-transformation-associated protein antibody-reactive polypeptide of approximately 58 kDa. Limited restriction enzyme mapping indicated 34A and 79B3 are two different cDNA clones. The nucleotide sequence of 34A cDNA was determined, and a search of GenBank revealed that it is identical to that of rat transin-2. The deduced amino acid sequence of 34A shares 71% sequence identity with rat transin and 41-76% identity with six human metalloproteinases. The limited restriction enzyme mapping and partial nucleotide sequencing data indicated that 79B3 may be the rat transin gene. When either 34A cDNA or 79B3 cDNA was used as a probe in Northern blot analysis, one mRNA band of approximately 1.9 kilobases was detected in 6m2 cells grown at the permissive temperature of 33 degrees C, at which the cells exhibited transformation properties, and a much lower level in 6m2 cells grown at the nonpermissive temperature of 39 degrees C, at which the cells reverted to normal phenotypes. These results suggest that at 39 degrees C, these two genes were not transcribed at the same level as at 33 degrees C. Zymogram and Western blot analysis of 6m2 cells further confirmed that the 64- and 68-kDa proteins have metalloproteinase activities and that the synthesis of metalloproteinases was also temperature-sensitive. Apparently, the two proteins we formerly designated transformation-associated proteins are members of the rat transin gene family. Therefore, within v-mos transformed 6m2 cells, the absence of transformation-associated protein (metalloproteinase) synthesis at the nonpermissive temperature was due to the absence of transcription of two rat transin genes.
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