Immunoadsorption of specific chicken oviduct polysomes. Isolation of ovalbumin, ovomucoid, and lysozyme messenger RNA.

The messenger RNA coding for the egg white proteins ovalbumin, ovomucoid, and lysozyme were isolated by immunoadsorption of polysomes synthesizing these proteins. Monospecific antibodies against ovalbumin, ovomucoid, and lysozyme, raised in rabbits, were reacted with chicken oviduct polysomes. The antibody-polysome complexes were isolated by immunoadsorption onto sheep anti-rabbit antibodies coupled to an insoluble matrix. The specifically bound polysomes were eluted and the mRNA was obtained by poly(U)-Sepharose chromatography. The three specific RNAs were further purified by preparative gel electrophoresis. The purity of the mRNA preparations was demonstrated by analytical gel electrophoresis, the capability to direct the synthesis of specific protein products in a wheat germ cell-free system, and by hybridization to cDNA transcribed from mRNAoa and mRNAomu. Purified mRNAoa was shown to contain less than 0.1% mRNAomu and purified mRNAomu was about 99% pure with respect to mRNAoa. Purified mRNAly was contaminated with mRNAoa to 0.34% and with mRNAomu to 2.9%.     

北京鸭卵对蛋白mRNA的提纯及某些性质的鉴定

 本文报道了从产卵期北京鸭输卵管中提取总RNA,经Olilo(dT)-纤维素柱层析,再经sepharose 4B柱层析步骤,得到了纯化的鸭卵清蛋白mRNA。我们建立了麦胚无细胞体系并探索了鸭卵清蛋白mRNA在此体系中翻译的最适条件。在此条件下测定了各纯化步骤的总mRNA翻译活性,并用免疫沉淀法测定其中卵清蛋白mRNA的活性。测定结果表明我们从mRNA中分离得到了纯鸭卵清蛋白mRNA。用变性的琼脂糖凝胶电泳对各纯化步骤的核酸样品进行组成分析,确定出鸭卵清蛋白mRNA的大小约为21S。     

In vitro RNA synthesis and expression of vitellogenin gene in isolated chicken liver nuclei.

Optimal conditions for prolonged in vitro synthesis of RNA in isolated chicken liver nuclei have been described. It is shown by incorporation of gamma32P-GTP into RNA, analysis of the product on sucrose density gradient, and digestion with alkaline phosphatase and ribonuclease A that there is reinitiation of RNA synthesis. Polynucleotide kinase activity has been ruled out as explanation for the incorporation of gamma32P-GTP. alpha-Amanitin inhibits RNA synthesis by about 50%. Nuclei prepared from estradiol-treated chicks have twice the RNA synthesis activity as the controls. RNA is synthesized in the presence of Hg-UTP and the mercurated product separated by affinity chromatography on sulfhydryl-Sepharose column under stringent conditions. Vitellogenin mRNA sequences are measured by hybridization with DNA complementary to vitellogenin mRNA. Estradiol treatment leads to a 10-fold increase in vitellogenin mRNA sequences.     

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

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.