一种甲藻中核糖体核糖核酸的性质与加工

The nature and processing of ribosomal ribonucleic acid in a dinoflagellate.

作者信息

Rae P M

出版信息

J Cell Biol. 1970 Jul;46(1):106-13. doi: 10.1083/jcb.46.1.106.

DOI:10.1083/jcb.46.1.106

PMID:5459003

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2108060/

Abstract

Certain features of the dinoflagellate nucleus suggest that it represents a primitive form of eukaryotic nucleus. For this reason, it was of interest to characterize dinoflagellate ribosomal RNA (rRNA) and its mode of synthesis to determine if it also deviated from typical eukaryotic patterns. Gyrodinium cohnii was chosen for this examination. Gyrodinium ribosomal RNA species are 16 and 25s as judged by their sedimentation velocities in isokinetic sucrose gradients. These values are typical of higher plants. In addition, the RNA cosedimented precisely with rRNA from the ciliate Tetrahymena. Nucleotide ratio analyses revealed a GMP + CMP content of 46% for both species of rRNA. The kinetics of incorporation of a radioactive precursor into ribosomal RNA have also been studied, and it seems likely that the maturation of rRNA starts with the synthesis of a 38s molecule. This serves as precursor to the 16s species, and, after a 27s intermediate, the 25s ribosomal component. The process is similar to that in other eukaryotes. The structure of the nucleolus has also been examined, and is seen to be typically eukaryotic.

摘要

某些甲藻细胞核的特征表明它代表了真核细胞核的一种原始形式。因此，表征甲藻核糖体RNA（rRNA）及其合成模式以确定它是否也偏离典型的真核模式就变得很有意义。为此选择了寇氏陀螺藻进行此项研究。根据其在等速蔗糖梯度中的沉降速度判断，寇氏陀螺藻的核糖体RNA种类为16S和25S。这些值是高等植物的典型值。此外，该RNA与来自纤毛虫四膜虫的rRNA精确共沉降。核苷酸比率分析显示两种rRNA的GMP + CMP含量均为46%。还研究了放射性前体掺入核糖体RNA的动力学，rRNA的成熟似乎始于38S分子的合成。这作为16S种类的前体，并且在一个27S中间体之后，成为25S核糖体组分。该过程与其他真核生物中的过程相似。核仁的结构也已被研究，并且被认为是典型的真核结构。

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