核糖体蛋白L18和L25对5S RNA构象的改变。

Alteration of 5S RNA conformation by ribosomal proteins L18 and L25.

作者信息

Bear D G, Schleich T, Noller H F, Garrett R A

出版信息

Nucleic Acids Res. 1977 Jul;4(7):2511-26. doi: 10.1093/nar/4.7.2511.

DOI:10.1093/nar/4.7.2511

PMID:333392

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC342584/

Abstract

The effects of ribosomal proteins L18, L25 and L5 on the conformation of 5S RNA have been studied by circular dichroism and temperature dependent ultraviolet absorbance. The circular dichroism spectrum of native 5S RNA is characterized in the near ultraviolet by a large positive band at 267 nm and a small negative band at 298 nm. The greatest perturbation in the spectrum was produced by protein L18 which induced a 20% increase in the 267 nm band and no change in the 298 nm band. By contrast, protein L25 caused a small decrease in both bands. No effect was observed with protein L5. Simultaneous binding of proteins L18 and L25 resulted in CD changes equivalent to the sum of their independent effects. The UV absorbance thermal denaturation profile of the 5S RNA L18 complex lacked the pre-melting behavior characteristic of 5S RNA. Protein L25 had no effect on the 5S RNA melting profile. We concluded that protein L18 increases the secondary, and possible the tertiary structure of 5S RNA, and exerts a minor stabilizing effect on its conformation while protein L25 causes a small decrease in 5S RNA secondary structure. The implications of these findings for ribosome assembly and function are discussed.

摘要

通过圆二色性和温度依赖性紫外吸收研究了核糖体蛋白L18、L25和L5对5S RNA构象的影响。天然5S RNA的圆二色光谱在近紫外区的特征是在267 nm处有一个大的正峰，在298 nm处有一个小的负峰。蛋白L18对光谱的扰动最大，它使267 nm处的峰增加了20%，而298 nm处的峰没有变化。相比之下，蛋白L25使两个峰都略有下降。蛋白L5未观察到影响。蛋白L18和L25同时结合导致的圆二色性变化相当于它们各自独立作用的总和。5S RNA-L18复合物的紫外吸收热变性曲线缺乏5S RNA特有的预熔解行为。蛋白L25对5S RNA的熔解曲线没有影响。我们得出结论，蛋白L18增加了5S RNA的二级结构，可能还有三级结构，并对其构象有轻微的稳定作用，而蛋白L25使5S RNA的二级结构略有减少。讨论了这些发现对核糖体组装和功能的意义。

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