Chance and necessity in the evolution of RNase P

Venkat Gopalan; Nayef Jarrous; Andrey S. Krasilnikov

doi:10.1261/rna.063107.117

Chance and necessity in the evolution of RNase P

Venkat Gopalan, Nayef Jarrous, Andrey S. Krasilnikov

Department of Microbiology and Molecular Genetics

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

RNase P catalyzes 5^??-maturation of tRNAs in all three domains of life. This primary function is accomplished by either a ribozyme-centered ribonucleoprotein (RNP) or a protein-only variant (with one to three polypeptides). The large, multicomponent archaeal and eukaryotic RNase P RNPs appear disproportionate to the simplicity of their role in tRNA 5^??-maturation, prompting the question of why the seemingly gratuitously complex RNP forms of RNase P were not replaced with simpler protein counterparts. Here, motivated by growing evidence, we consider the hypothesis that the large RNase P RNP was retained as a direct consequence of multiple roles played by its components in processes that are not related to the canonical RNase P function.

Original language	English
Pages (from-to)	1-5
Number of pages	5
Journal	RNA
Volume	24
Issue number	1
DOIs	https://doi.org/10.1261/rna.063107.117
State	Published - Jan 2018

Keywords

Evolution
RNase MRP
RNase P
Ribonucleoprotein

All Science Journal Classification (ASJC) codes

Molecular Biology

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10.1261/rna.063107.117

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abstract = "RNase P catalyzes 5??-maturation of tRNAs in all three domains of life. This primary function is accomplished by either a ribozyme-centered ribonucleoprotein (RNP) or a protein-only variant (with one to three polypeptides). The large, multicomponent archaeal and eukaryotic RNase P RNPs appear disproportionate to the simplicity of their role in tRNA 5??-maturation, prompting the question of why the seemingly gratuitously complex RNP forms of RNase P were not replaced with simpler protein counterparts. Here, motivated by growing evidence, we consider the hypothesis that the large RNase P RNP was retained as a direct consequence of multiple roles played by its components in processes that are not related to the canonical RNase P function.",

keywords = "Evolution, RNase MRP, RNase P, Ribonucleoprotein",

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year = "2018",

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doi = "10.1261/rna.063107.117",

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AU - Jarrous, Nayef

AU - Krasilnikov, Andrey S.

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N2 - RNase P catalyzes 5??-maturation of tRNAs in all three domains of life. This primary function is accomplished by either a ribozyme-centered ribonucleoprotein (RNP) or a protein-only variant (with one to three polypeptides). The large, multicomponent archaeal and eukaryotic RNase P RNPs appear disproportionate to the simplicity of their role in tRNA 5??-maturation, prompting the question of why the seemingly gratuitously complex RNP forms of RNase P were not replaced with simpler protein counterparts. Here, motivated by growing evidence, we consider the hypothesis that the large RNase P RNP was retained as a direct consequence of multiple roles played by its components in processes that are not related to the canonical RNase P function.

AB - RNase P catalyzes 5??-maturation of tRNAs in all three domains of life. This primary function is accomplished by either a ribozyme-centered ribonucleoprotein (RNP) or a protein-only variant (with one to three polypeptides). The large, multicomponent archaeal and eukaryotic RNase P RNPs appear disproportionate to the simplicity of their role in tRNA 5??-maturation, prompting the question of why the seemingly gratuitously complex RNP forms of RNase P were not replaced with simpler protein counterparts. Here, motivated by growing evidence, we consider the hypothesis that the large RNase P RNP was retained as a direct consequence of multiple roles played by its components in processes that are not related to the canonical RNase P function.

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Chance and necessity in the evolution of RNase P

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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