Systematic Minimization of RNA Ligase Ribozyme Through Large-scale Design-synthesis-sequence Cycles

Overview

Journal Nucleic Acids Res

Publisher Oxford University Press

Specialty Biochemistry

Date 2019 Sep 11

PMID 31504757

Citations 10

Authors

Yoko Nomura

Yohei Yokobayashi

Affiliations

Soon will be listed here.

Abstract

Template-directed RNA ligation catalyzed by an RNA enzyme (ribozyme) is a plausible and important reaction that could have been involved in transferring genetic information during prebiotic evolution. Laboratory evolution experiments have yielded several classes of ligase ribozymes, but their minimal sequence requirements remain largely unexplored. Because selection experiments strongly favor highly active sequences, less active but smaller catalytic motifs may have been overlooked in these experiments. We used large-scale DNA synthesis and high-throughput ribozyme assay enabled by deep sequencing to systematically minimize a previously laboratory-evolved ligase ribozyme. After designing and evaluating >10 000 sequences, we identified catalytic cores as small as 18 contiguous bases that catalyze template-directed regiospecific RNA ligation. The fact that such a short sequence can catalyze this critical reaction suggests that similarly simple or even simpler motifs may populate the RNA sequence space which could have been accessible to the prebiotic ribozymes.

Citing Articles

CHiTA: A scarless high-throughput pipeline for characterization of ribozymes.

McKinley L, Bevilacqua P Methods. 2024; 234:120-130.

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Direct testing of natural twister ribozymes from over a thousand organisms reveals a broad tolerance for structural imperfections.

McKinley L, Meyer M, Sebastian A, Chang B, Messina K, Albert I Nucleic Acids Res. 2024; 52(22):14133-14153.

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A cis-acting ligase ribozyme generates circular RNA in vitro for ectopic protein functioning.

Su C, Chuang Z, Shie C, Wang H, Kao Y, Yu C Nat Commun. 2024; 15(1):6607.

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Design and Synthesis of Circular RNA Expression Vectors.

Frei J, Jarzebska N, Mellett M, Kundig T, Pascolo S, Reichmuth A Methods Mol Biol. 2024; 2786:205-215.

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Molecular Anatomy of the Class I Ligase Ribozyme for Elucidation of the Activity-Generating Unit.

Kasuga M, Mutsuro-Aoki H, Ando T, Tamura K Biology (Basel). 2023; 12(7).

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