Isolation of a nuclear ribonucleoprotein fraction from chick oviduct containing ovalbumin messenger RNA sequences

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A method was developed for the isolation of a ribonucleoprotein fraction from chick oviduct nuclei that contains 70% of the pulse-labeled RNA. These fractions also contain about 1% of the nuclear DNA and have an average RNA to DNA ratio of about 4:1. The major nuclear RNP proteins of 32,000 M r are present along with many additional proteins including histories. However, polysomal proteins and major oviduct cytoplasmic proteins are absent. Nuclei from fully stimulated chick oviduct contain about 3000 copies of ovalbumin messenger RNA sequences of which about 200 are in the RNP complexes: these complexes have sedimentation coefficients of 30 to 350 S and are resistant to disruption by EDTA. The level of ovalbumin mRNA sequences in these complexes reflects the overall rate of synthesis of this RNA. Withdrawal of estrogen leads to a parallel decline of nuclear estrogen receptors and ovalbumin mRNA sequences in the RNP complexes and a subsequent loss of cytoplasmic ovalbumin mRNA about three hours later. The 300-fold decrease in the level of ovalbumin mRNA sequences in these complexes and the eightfold decrease in stability of cytoplasmic ovalbumin mRNA account for the 2500-fold decrease in the level of cytoplasmic ovalbumin mRNA observed during withdrawal. Upon stimulation with estrogen, the kinetics of reappearance of ovalbumin mRNA sequences in the RNP complexes apparently accounts for the accumulation of cytoplasmic ovalbumin mRNA. Thus the nuclear RNP has some of the properties expected of nascent RNP complexes. The levels of ovalbumin and conalbumin mRNA sequences increase in the nuclear RNP with markedly different kinetics: conalbumin mRNA sequences reach half maximum by 1.5 hours, whereas ovalbumin mRNA sequences in these complexes reach half maximum at about eight hours. In the analysis in the accompanying Appendix, we show that the immediate increase of conalbumin mRNA sequences in the nuclear RNP may be accounted for by interaction of the hormone receptor complex with a single regulatory site, whereas the delayed increase of ovalbumin mRNA sequences in the RNP may be due to a requirement for interaction of the hormone receptor complex with multiple regulatory sites.