植物基因组在核内不均一RNA和信使RNA中的表达。

The expression of a plant genome in hnRNA and mRNA.

作者信息

Kiper M, Bartels D, Herzfeld F, Richter G

出版信息

Nucleic Acids Res. 1979;6(5):1961-78. doi: 10.1093/nar/6.5.1961.

DOI:10.1093/nar/6.5.1961

PMID:450719

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC327824/

Abstract

Representation of genomic kinetic sequence classes and sequence complexities were investigated in nuclear and polysomal RNA of the higher plant Petroselinum sativum (parsley). Two different methods indicated that most if not all polysomal poly(A) -RNA is transcribed from unique sequences. As measured by saturation hybridization in root callus and young leaves 8.7% and 6.2%, respectively, of unique DNA were transcribed in mRNA corresponding to 13.700 and 10.000 average sized genes. Unique nuclear DNA hybridized with an excess of polysomal poly(A)mRNA to the same extent as with total polysomal RNA. 3H-cDNA - poly(A)mRNA hybridization kinetics revealed the presence of two abundance classes with 9.200 and about 30 different mRNAs in leaves and two abundance classes with 10.500 and 960 different mRNAs in callus cells. The existence of plant poly(A)hnRNA was proven both by its fast kinetics of appearance, its length distribution larger than mRNA, and its sequence complexity a few times that of polysomal RNA.

摘要

在高等植物皱叶欧芹的细胞核和多核糖体RNA中，对基因组动力学序列类别和序列复杂性进行了研究。两种不同的方法表明，大多数（如果不是全部的话）多核糖体多聚腺苷酸RNA是由独特序列转录而来的。通过根愈伤组织和幼叶中的饱和杂交测量，分别有8.7%和6.2%的独特DNA转录到对应于平均大小为13700和10000个基因的mRNA中。独特的核DNA与过量的多核糖体多聚腺苷酸mRNA杂交的程度与与总多核糖体RNA杂交的程度相同。3H-cDNA-多聚腺苷酸mRNA杂交动力学揭示，在叶片中有两个丰度类别，分别含有9200个和约30种不同的mRNA，在愈伤组织细胞中有两个丰度类别，分别含有10500个和960种不同的mRNA。植物多聚腺苷酸核内不均一RNA的存在通过其快速出现的动力学、比mRNA更大的长度分布以及比多核糖体RNA高几倍的序列复杂性得到了证实。

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