A Hexameric Ribozyme Nanostructure Formed by Double-Decker Assembly of a Pair of Triangular Ribozyme Trimers

Kai Yu; Kumi Hidaka; Hiroshi Sugiyama; Masayuki Endo; Shigeyoshi Matsumura; Yoshiya Ikawa

doi:10.1002/cbic.202100573

A Hexameric Ribozyme Nanostructure Formed by Double-Decker Assembly of a Pair of Triangular Ribozyme Trimers

Kai Yu, Kumi Hidaka, Hiroshi Sugiyama, Masayuki Endo, Shigeyoshi Matsumura, Yoshiya Ikawa^*

^*Corresponding author for this work

Department of Chemistry

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

3 Scopus citations

Abstract

The modular architecture of naturally occurring ribozymes makes them a promising class of structural platform for the design and assembly of three-dimensional (3D) RNA nanostructures, into which the catalytic ability of the platform ribozyme can be installed. We have constructed and analyzed RNA nanostructures with polygonal-shaped (closed) ribozyme oligomers by assembling unit RNAs derived from the Tetrahymena group I intron with a typical modular architecture. In this study, we dimerized ribozyme trimers with a triangular shape by introducing three pillar units. The resulting double-decker nanostructures containing six ribozyme units were characterized biochemically and their structures were observed by atomic force microscopy. The double-decker hexamers exhibited higher catalytic activity than the parent ribozyme trimers.

Original language	English
Article number	e202100573
Journal	ChemBioChem
Volume	23
Issue number	6
DOIs	https://doi.org/10.1002/cbic.202100573
State	Published - 2022/03/18

Keywords

RNA nanostructures
RNA nanotechnology
Tetrahymena
group I introns
ribozymes

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Organic Chemistry

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10.1002/cbic.202100573

Cite this

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title = "A Hexameric Ribozyme Nanostructure Formed by Double-Decker Assembly of a Pair of Triangular Ribozyme Trimers",

abstract = "The modular architecture of naturally occurring ribozymes makes them a promising class of structural platform for the design and assembly of three-dimensional (3D) RNA nanostructures, into which the catalytic ability of the platform ribozyme can be installed. We have constructed and analyzed RNA nanostructures with polygonal-shaped (closed) ribozyme oligomers by assembling unit RNAs derived from the Tetrahymena group I intron with a typical modular architecture. In this study, we dimerized ribozyme trimers with a triangular shape by introducing three pillar units. The resulting double-decker nanostructures containing six ribozyme units were characterized biochemically and their structures were observed by atomic force microscopy. The double-decker hexamers exhibited higher catalytic activity than the parent ribozyme trimers.",

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author = "Kai Yu and Kumi Hidaka and Hiroshi Sugiyama and Masayuki Endo and Shigeyoshi Matsumura and Yoshiya Ikawa",

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doi = "10.1002/cbic.202100573",

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AU - Sugiyama, Hiroshi

AU - Endo, Masayuki

AU - Matsumura, Shigeyoshi

AU - Ikawa, Yoshiya

PY - 2022/3/18

Y1 - 2022/3/18

N2 - The modular architecture of naturally occurring ribozymes makes them a promising class of structural platform for the design and assembly of three-dimensional (3D) RNA nanostructures, into which the catalytic ability of the platform ribozyme can be installed. We have constructed and analyzed RNA nanostructures with polygonal-shaped (closed) ribozyme oligomers by assembling unit RNAs derived from the Tetrahymena group I intron with a typical modular architecture. In this study, we dimerized ribozyme trimers with a triangular shape by introducing three pillar units. The resulting double-decker nanostructures containing six ribozyme units were characterized biochemically and their structures were observed by atomic force microscopy. The double-decker hexamers exhibited higher catalytic activity than the parent ribozyme trimers.

AB - The modular architecture of naturally occurring ribozymes makes them a promising class of structural platform for the design and assembly of three-dimensional (3D) RNA nanostructures, into which the catalytic ability of the platform ribozyme can be installed. We have constructed and analyzed RNA nanostructures with polygonal-shaped (closed) ribozyme oligomers by assembling unit RNAs derived from the Tetrahymena group I intron with a typical modular architecture. In this study, we dimerized ribozyme trimers with a triangular shape by introducing three pillar units. The resulting double-decker nanostructures containing six ribozyme units were characterized biochemically and their structures were observed by atomic force microscopy. The double-decker hexamers exhibited higher catalytic activity than the parent ribozyme trimers.

KW - RNA nanostructures

KW - RNA nanotechnology

KW - Tetrahymena

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KW - ribozymes

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A Hexameric Ribozyme Nanostructure Formed by Double-Decker Assembly of a Pair of Triangular Ribozyme Trimers

Abstract

Keywords

ASJC Scopus subject areas

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