Calvet J P, Pederson T
Proc Natl Acad Sci U S A. 1977 Sep;74(9):3705-9. doi: 10.1073/pnas.74.9.3705.
Heterogeneous nuclear RNA (hnRNA) from HeLa cells contains intramolecular duplexes. Since hnRNA is associated with protein in vivo, it is possible that the double-stranded regions observed in deproteinized hnRNA form spontaneously upon the release of protein from single-stranded but potentially complementary sequences. We show here that this is not the case for a class of double-stranded sequences that is defined by resistance to RNases A + T(1) at high ionic strength. Exposure of HeLa hnRNA.ribonucleoprotein (hnRNP) particles to Escherichia coli RNase III, a double-strand-specific endoribonuclease, destroys most of the sequences resistant to RNases A + T(1). This effect is completely blocked when hnRNP is exposed to RNase III in the presence of an excess of purified double-stranded RNA. In addition, we show that there exist two classes of double-stranded RNA in hnRNP at a salt concentration of 0.13 M. These are distinguished by their relative resistance to RNases A + T(1). The more stable double-stranded sequences, which are resistant to RNases A + T(1) at 0.13 M, comprise 1.0-1.1% of the nucleotides in hnRNP. The less stable double-stranded sequences comprise an additional 1.5-2.0% of the nucleotides in hnRNP. These are sensitive to RNase III at 0.13 M, but are not resistant to RNases A + T(1) unless the salt concentration is raised to 0.63 M. The demonstration that double-stranded sequences resistant to RNases A + T(1) exist in native ribonucleoprotein and are not artifacts of deproteinization now makes it appropriate to seriously consider their possible functional role in hnRNA metabolism, perhaps as binding sites for regulatory proteins involved in mRNA processing.
来自HeLa细胞的不均一核RNA(hnRNA)含有分子内双链体。由于hnRNA在体内与蛋白质相关联,所以有可能在脱蛋白的hnRNA中观察到的双链区域是在蛋白质从单链但可能互补的序列中释放后自发形成的。我们在此表明,对于一类在高离子强度下对核糖核酸酶A + T1有抗性所定义的双链序列,情况并非如此。将HeLa hnRNA - 核糖核蛋白(hnRNP)颗粒暴露于大肠杆菌核糖核酸酶III(一种双链特异性内切核糖核酸酶)会破坏大部分对核糖核酸酶A + T1有抗性的序列。当hnRNP在过量纯化双链RNA存在的情况下暴露于核糖核酸酶III时,这种效应会被完全阻断。此外,我们表明在盐浓度为0.13M时,hnRNP中存在两类双链RNA。它们通过对核糖核酸酶A + T1的相对抗性来区分。更稳定的双链序列在0.13M时对核糖核酸酶A + T1有抗性,占hnRNP中核苷酸的1.0 - 1.1%。较不稳定的双链序列在hnRNP中额外占核苷酸的1.5 - 2.0%。这些序列在0.13M时对核糖核酸酶III敏感,但除非盐浓度提高到0.63M,否则对核糖核酸酶A + T1没有抗性。对天然核糖核蛋白中存在对核糖核酸酶A + T1有抗性的双链序列且不是脱蛋白产物的证明,现在使得认真考虑它们在hnRNA代谢中可能的功能作用变得恰当,也许作为参与mRNA加工的调节蛋白的结合位点。