Minimal twister sister (TS)-like self-cleaving ribozymes in the human genome revealed by deep mutational scanning

Author:

Zhang Zhe1,Hong Xu1,Xiong Peng2,Wang Junfeng3ORCID,Zhan Jian1,Zhou Yaoqi1ORCID

Affiliation:

1. Shenzhen Bay Laboratory

2. University of Science and Technology of China

3. Hefei Institutes of Physical Science, Chinese Academy of Sciences

Abstract

Abstract

Despite their importance in a wide range of living organisms, self-cleaving ribozymes in the human genome are few and poorly studied. Here, we performed deep mutational scanning and covariance analysis of two previously proposed self-cleaving ribozymes (LINE-1 and OR4K15). We found that the regions essential for ribozyme activities are made of two short segments, with a total of 35 and 31 nucleotides only. The discovery makes them the simplest known self-cleaving ribozymes. Moreover, the essential regions are circular permutated with two nearly identical catalytic internal loops, supported by two stems of different lengths. These two self-cleaving ribozymes, which shape like lanterns, are similar to the catalytic regions of the twister sister ribozymes in terms of sequence and secondary structure. However, the nucleotides at the cleavage site have shown that mutational effects on the two twister sister-like (TS-like) ribozymes are different from the twister sister ribozyme. The discovery of TS-like ribozymes reveals a ribozyme class with the simplest and, perhaps, the most primitive structure needed for self-cleavage.

Publisher

Springer Science and Business Media LLC

Reference46 articles.

1. Benner,S.A., Ellington,A.D. and Tauer,A. (1989) Modern metabolism as a palimpsest of the RNA world. Proc. Natl. Acad. Sci. U. S. A., 86, 7054–7058.

2. Small Self-cleaving Ribozymes;Ferré-D’Amaré AR;Cold Spring Harb. Perspect. Biol.,2010

3. Autolytic processing of dimeric plant virus satellite RNA;Prody GA;Science,1986

4. Self-cleavage of virusoid RNA is performed by the proposed 55-nucleotide active site;Forster AC;Cell,1987

5. Self-cleavage of plus and minus RNA transcripts of avocado sunblotch viroid;Hutchins CJ;Nucleic Acids Res.,1986

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