Abstract
We have analyzed the effect of estrogen on the kinds of unique DNA sequences which are transcriptionally expressed in chick oviduct with an "expressed" DNA probe. Steady-state nRNA in estrogen-stimulated chick oviduct represents about 25% of the complexity of total chick unique DNA. To purify this expressed DNA fraction, chick unique DNA was isolated, nick-translated, and hybridized to chemically mercurated oviduct nRNA (Hg-nRNA); the resulting hybrids were bound to sulfhydryl-Sepharose, and DNA was selectively recovered by thermal elution in formamide buffer. To compare the sequence homology between nRNAs isolated from oviduct before or up to 6 days after estrogen withdrawal, trace amounts of expressed DNA derived from estrogen-stimulated oviduct were hybridized in RNA-excess reactions. All nRNAs hybridized with equal efficiency. Furthermore, hybridization of expressed DNA to nRNA mixtures showed that nRNA from nonwithdrawn and withdrawn oviduct contained a similar set of unique sequences. The data indicate that, at most, only a small percentage (0--5%) of transcriptionally active unique DNA sequences are shut down when estrogen is removed from the circulation.
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