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pubmed:abstractText |
Retinoic acid (RA), the natural acidic derivative of vitamin A, can modulate the expression of specific genes and can induce some cell types, such as the murine F9 teratocarcinoma stem cell line, to differentiate in culture. As an initial step toward understanding the molecular mechanism(s) by which RA exerts these effects, we previously isolated cDNA clones for a gene, ERA-1, which has the characteristics of an early, direct target for RA. We demonstrated that RA causes a rapid, dose-dependent, and protein synthesis-independent expression of the ERA-1 gene (G. J. LaRosa and L. J. Gudas, Proc. Natl. Acad. Sci. USA 85:329-333, 1988). We now report the full-length cDNA sequence and the further characterization of this gene. The data indicate that the RA-induced 2.2- to 2.4-kilobase ERA-1 RNA species that we previously detected consists of two alternately spliced messages. One mRNA encodes a protein with a predicted mass of about 36 kilodaltons (kDa) that possesses the Hox 1.6 homeobox domain. The other mRNA encodes a truncated protein of about 15 kDa which is identical to the 36-kDa protein for 114 amino acids at the amino-terminal end but which lacks the homeobox amino acid sequence. The RA-associated increase in the ERA-1 mRNA level does not appear to be due to message stabilization, suggesting that the response is at the level of transcription. By Northern (RNA) blot analysis, the usual 2.2- to 2.4-kilobase mRNA species was also rapidly expressed in P19 teratocarcinoma cells during their differentiation to fibroblastic cells in response to RA and was detected in day 10.5 and day 13.5 mouse embryos. This result indicates that the expression of this gene is not limited to the endodermal differentiation of F9 cells.
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