Development and Characterization of a Modular CRISPR and RNA Aptamer Mediated Base Editing System

Juan Carlos Collantes; Victor M. Tan; Huiting Xu; Melany Ruiz-Uriguën; Amer Alasadi; Jingjing Guo; Hanlin Tao; Chi Su; Katarzyna M. Tyc; Tommaso Selmi; John J. Lambourne; Jennifer A. Harbottle; Jesse Stombaugh; Jinchuan Xing; Ceri M. Wiggins; Shengkan Jin

doi:10.1089/crispr.2020.0035

Development and Characterization of a Modular CRISPR and RNA Aptamer Mediated Base Editing System

Juan Carlos Collantes
, Victor M. Tan
, Huiting Xu
, Melany Ruiz-Uriguën
, Amer Alasadi
, Jingjing Guo
, Hanlin Tao
, Chi Su
, Katarzyna M. Tyc
, Tommaso Selmi
, John J. Lambourne
, Jennifer A. Harbottle
, Jesse Stombaugh
, Jinchuan Xing
, Ceri M. Wiggins
, Shengkan Jin^*

^*Corresponding author for this work

Robert Wood Johnson Medical School
Rutgers University–New Brunswick
PerkinElmer, Inc.

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

15 Scopus citations

Abstract

Conventional CRISPR approaches for precision genome editing rely on the introduction of DNA double-strand breaks (DSB) and activation of homology-directed repair (HDR), which is inherently genotoxic and inefficient in somatic cells. The development of base editing (BE) systems that edit a target base without requiring generation of DSB or HDR offers an alternative. Here, we describe a novel BE system called Pin-pointTM that recruits a DNA base-modifying enzyme through an RNA aptamer within the gRNA molecule. Pin-point is capable of efficiently modifying base pairs in the human genome with precision and low on-target indel formation. This system can potentially be applied for correcting pathogenic mutations, installing premature stop codons in pathological genes, and introducing other types of genetic changes for basic research and therapeutic development.

Original language	English
Pages (from-to)	58-68
Number of pages	11
Journal	CRISPR Journal
Volume	4
Issue number	1
DOIs	https://doi.org/10.1089/crispr.2020.0035
State	Published - Feb 2021
Externally published	Yes

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Collantes, J. C., Tan, V. M., Xu, H., Ruiz-Uriguën, M., Alasadi, A., Guo, J., Tao, H., Su, C., Tyc, K. M., Selmi, T., Lambourne, J. J., Harbottle, J. A., Stombaugh, J., Xing, J., Wiggins, C. M., & Jin, S. (2021). Development and Characterization of a Modular CRISPR and RNA Aptamer Mediated Base Editing System. CRISPR Journal, 4(1), 58-68. https://doi.org/10.1089/crispr.2020.0035

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abstract = "Conventional CRISPR approaches for precision genome editing rely on the introduction of DNA double-strand breaks (DSB) and activation of homology-directed repair (HDR), which is inherently genotoxic and inefficient in somatic cells. The development of base editing (BE) systems that edit a target base without requiring generation of DSB or HDR offers an alternative. Here, we describe a novel BE system called Pin-pointTM that recruits a DNA base-modifying enzyme through an RNA aptamer within the gRNA molecule. Pin-point is capable of efficiently modifying base pairs in the human genome with precision and low on-target indel formation. This system can potentially be applied for correcting pathogenic mutations, installing premature stop codons in pathological genes, and introducing other types of genetic changes for basic research and therapeutic development.",

author = "Collantes, \{Juan Carlos\} and Tan, \{Victor M.\} and Huiting Xu and Melany Ruiz-Urigu{\"e}n and Amer Alasadi and Jingjing Guo and Hanlin Tao and Chi Su and Tyc, \{Katarzyna M.\} and Tommaso Selmi and Lambourne, \{John J.\} and Harbottle, \{Jennifer A.\} and Jesse Stombaugh and Jinchuan Xing and Wiggins, \{Ceri M.\} and Shengkan Jin",

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AU - Collantes, Juan Carlos

AU - Tan, Victor M.

AU - Xu, Huiting

AU - Ruiz-Uriguën, Melany

AU - Alasadi, Amer

AU - Guo, Jingjing

AU - Tao, Hanlin

AU - Su, Chi

AU - Tyc, Katarzyna M.

AU - Selmi, Tommaso

AU - Lambourne, John J.

AU - Harbottle, Jennifer A.

AU - Stombaugh, Jesse

AU - Xing, Jinchuan

AU - Wiggins, Ceri M.

AU - Jin, Shengkan

PY - 2021/2

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N2 - Conventional CRISPR approaches for precision genome editing rely on the introduction of DNA double-strand breaks (DSB) and activation of homology-directed repair (HDR), which is inherently genotoxic and inefficient in somatic cells. The development of base editing (BE) systems that edit a target base without requiring generation of DSB or HDR offers an alternative. Here, we describe a novel BE system called Pin-pointTM that recruits a DNA base-modifying enzyme through an RNA aptamer within the gRNA molecule. Pin-point is capable of efficiently modifying base pairs in the human genome with precision and low on-target indel formation. This system can potentially be applied for correcting pathogenic mutations, installing premature stop codons in pathological genes, and introducing other types of genetic changes for basic research and therapeutic development.

AB - Conventional CRISPR approaches for precision genome editing rely on the introduction of DNA double-strand breaks (DSB) and activation of homology-directed repair (HDR), which is inherently genotoxic and inefficient in somatic cells. The development of base editing (BE) systems that edit a target base without requiring generation of DSB or HDR offers an alternative. Here, we describe a novel BE system called Pin-pointTM that recruits a DNA base-modifying enzyme through an RNA aptamer within the gRNA molecule. Pin-point is capable of efficiently modifying base pairs in the human genome with precision and low on-target indel formation. This system can potentially be applied for correcting pathogenic mutations, installing premature stop codons in pathological genes, and introducing other types of genetic changes for basic research and therapeutic development.

UR - https://www.scopus.com/pages/publications/85101551864

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M3 - Artículo

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AN - SCOPUS:85101551864

SN - 2573-1599

VL - 4

SP - 58

EP - 68

JO - CRISPR Journal

JF - CRISPR Journal

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ER -

Development and Characterization of a Modular CRISPR and RNA Aptamer Mediated Base Editing System

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