GO: a functional reporter system to identify and enrich base editing activity

Abstract Base editing (BE) is a powerful tool for engineering single nucleotide variants (SNVs) and has been used to create targeted mutations in cell lines, organoids and animal models. Recent development of new BE enzymes has provided an extensive toolkit for genome modification; however, identify...

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Published in	Nucleic acids research Vol. 48; no. 6; pp. 2841 - 2852
Main Authors	Katti, Alyna, Foronda, Miguel, Zimmerman, Jill, Diaz, Bianca, Zafra, Maria Paz, Goswami, Sukanya, Dow, Lukas E
Format	Journal Article
Language	English
Published	England Oxford University Press 06.04.2020
Subjects	Animals Base Sequence Cell Line, Tumor Chemical Biology and Nucleic Acid Chemistry Drug Resistance, Microbial Gene Editing Genes, Reporter HEK293 Cells Humans Integrases - metabolism Mice NIH 3T3 Cells Recombination, Genetic - genetics
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Abstract	Abstract Base editing (BE) is a powerful tool for engineering single nucleotide variants (SNVs) and has been used to create targeted mutations in cell lines, organoids and animal models. Recent development of new BE enzymes has provided an extensive toolkit for genome modification; however, identifying and isolating edited cells for analysis has proven challenging. Here we report a ‘Gene On’ (GO) reporter system that indicates precise cytosine or adenine base editing in situ with high sensitivity and specificity. We test GO using an activatable GFP and use it to measure the kinetics, efficiency and PAM specificity of a range of new BE variants. Further, GO is flexible and can be easily adapted to induce expression of numerous genetically encoded markers, antibiotic resistance genes or enzymes, such as Cre recombinase. With these tools, GO can be exploited to functionally link BE events at endogenous genomic loci to cellular enzymatic activities in human and mouse cell lines and organoids. Thus, GO provides a powerful approach to increase the practicality and feasibility of implementing CRISPR BE in biomedical research.
AbstractList	Abstract Base editing (BE) is a powerful tool for engineering single nucleotide variants (SNVs) and has been used to create targeted mutations in cell lines, organoids and animal models. Recent development of new BE enzymes has provided an extensive toolkit for genome modification; however, identifying and isolating edited cells for analysis has proven challenging. Here we report a ‘Gene On’ (GO) reporter system that indicates precise cytosine or adenine base editing in situ with high sensitivity and specificity. We test GO using an activatable GFP and use it to measure the kinetics, efficiency and PAM specificity of a range of new BE variants. Further, GO is flexible and can be easily adapted to induce expression of numerous genetically encoded markers, antibiotic resistance genes or enzymes, such as Cre recombinase. With these tools, GO can be exploited to functionally link BE events at endogenous genomic loci to cellular enzymatic activities in human and mouse cell lines and organoids. Thus, GO provides a powerful approach to increase the practicality and feasibility of implementing CRISPR BE in biomedical research. Base editing (BE) is a powerful tool for engineering single nucleotide variants (SNVs) and has been used to create targeted mutations in cell lines, organoids and animal models. Recent development of new BE enzymes has provided an extensive toolkit for genome modification; however, identifying and isolating edited cells for analysis has proven challenging. Here we report a ‘Gene On’ (GO) reporter system that indicates precise cytosine or adenine base editing in situ with high sensitivity and specificity. We test GO using an activatable GFP and use it to measure the kinetics, efficiency and PAM specificity of a range of new BE variants. Further, GO is flexible and can be easily adapted to induce expression of numerous genetically encoded markers, antibiotic resistance genes or enzymes, such as Cre recombinase. With these tools, GO can be exploited to functionally link BE events at endogenous genomic loci to cellular enzymatic activities in human and mouse cell lines and organoids. Thus, GO provides a powerful approach to increase the practicality and feasibility of implementing CRISPR BE in biomedical research. Base editing (BE) is a powerful tool for engineering single nucleotide variants (SNVs) and has been used to create targeted mutations in cell lines, organoids and animal models. Recent development of new BE enzymes has provided an extensive toolkit for genome modification; however, identifying and isolating edited cells for analysis has proven challenging. Here we report a 'Gene On' (GO) reporter system that indicates precise cytosine or adenine base editing in situ with high sensitivity and specificity. We test GO using an activatable GFP and use it to measure the kinetics, efficiency and PAM specificity of a range of new BE variants. Further, GO is flexible and can be easily adapted to induce expression of numerous genetically encoded markers, antibiotic resistance genes or enzymes, such as Cre recombinase. With these tools, GO can be exploited to functionally link BE events at endogenous genomic loci to cellular enzymatic activities in human and mouse cell lines and organoids. Thus, GO provides a powerful approach to increase the practicality and feasibility of implementing CRISPR BE in biomedical research.
Author	Zimmerman, Jill Katti, Alyna Diaz, Bianca Zafra, Maria Paz Foronda, Miguel Dow, Lukas E Goswami, Sukanya
AuthorAffiliation	1 Sandra and Edward Meyer Cancer Center, Weill Cornell Medicine , New York, NY 10021, USA 3 Department of Medicine, Weill Cornell Medicine , New York, NY 10065, USA 2 Graduate School of Medical Sciences, Weill Cornell Medicine , New York, NY 10065, USA 4 Department of Biochemistry, Weill Cornell Medicine , New York, NY 10021, USA
AuthorAffiliation_xml	– name: 3 Department of Medicine, Weill Cornell Medicine , New York, NY 10065, USA – name: 1 Sandra and Edward Meyer Cancer Center, Weill Cornell Medicine , New York, NY 10021, USA – name: 4 Department of Biochemistry, Weill Cornell Medicine , New York, NY 10021, USA – name: 2 Graduate School of Medical Sciences, Weill Cornell Medicine , New York, NY 10065, USA
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Snippet	Abstract Base editing (BE) is a powerful tool for engineering single nucleotide variants (SNVs) and has been used to create targeted mutations in cell lines,... Base editing (BE) is a powerful tool for engineering single nucleotide variants (SNVs) and has been used to create targeted mutations in cell lines, organoids...
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StartPage	2841
SubjectTerms	Animals Base Sequence Cell Line, Tumor Chemical Biology and Nucleic Acid Chemistry Drug Resistance, Microbial Gene Editing Genes, Reporter HEK293 Cells Humans Integrases - metabolism Mice NIH 3T3 Cells Recombination, Genetic - genetics
Title	GO: a functional reporter system to identify and enrich base editing activity
URI	https://www.ncbi.nlm.nih.gov/pubmed/32112097 https://search.proquest.com/docview/2369436994 https://pubmed.ncbi.nlm.nih.gov/PMC7102966
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