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Tyler S Halpin-Healy

Explore the profile of Tyler S Halpin-Healy including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 5
Citations 350
Followers 0
Related Specialties
Science
Biotechnology
Top 10 Co-Authors
Sanne E Klompe
Samuel H Sternberg
Alejandro Chavez
Marcus I Hogan
Stephen Tang
George D Lampe
Phuc Leo H Vo
Rebeca T King
Israel S Fernandez
Phuc L H Vo
Published In
Nature
Nat Biotechnol
bioRxiv
Affiliations
Soon will be listed here.
Recent Articles
1.
Targeted DNA integration in human cells without double-strand breaks using CRISPR RNA-guided transposases
Lampe G, King R, Halpin-Healy T, Klompe S, Hogan M, Vo P, et al.
bioRxiv . 2023 Mar; PMID: 36993517
Traditional genome-editing reagents such as CRISPR-Cas9 achieve targeted DNA modification by introducing double-strand breaks (DSBs), thereby stimulating localized DNA repair by endogenous cellular repair factors. While highly effective at generating...
2.
Targeted DNA integration in human cells without double-strand breaks using CRISPR-associated transposases
Lampe G, King R, Halpin-Healy T, Klompe S, Hogan M, Vo P, et al.
Nat Biotechnol . 2023 Mar; 42(1):87-98. PMID: 36991112
Conventional genome engineering with CRISPR-Cas9 creates double-strand breaks (DSBs) that lead to undesirable byproducts and reduce product purity. Here we report an approach for programmable integration of large DNA sequences...
3.
Publisher Correction: Structural basis of DNA targeting by a transposon-encoded CRISPR-Cas system
Halpin-Healy T, Klompe S, Sternberg S, Fernandez I
Nature . 2020 Aug; 585(7825):E12. PMID: 32843756
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
4.
Structural basis of DNA targeting by a transposon-encoded CRISPR-Cas system
Halpin-Healy T, Klompe S, Sternberg S, Fernandez I
Nature . 2019 Dec; 577(7789):271-274. PMID: 31853065
Bacteria use adaptive immune systems encoded by CRISPR and Cas genes to maintain genomic integrity when challenged by pathogens and mobile genetic elements. Type I CRISPR-Cas systems typically target foreign...
5.
Transposon-encoded CRISPR-Cas systems direct RNA-guided DNA integration
Klompe S, Vo P, Halpin-Healy T, Sternberg S
Nature . 2019 Jun; 571(7764):219-225. PMID: 31189177
Conventional CRISPR-Cas systems maintain genomic integrity by leveraging guide RNAs for the nuclease-dependent degradation of mobile genetic elements, including plasmids and viruses. Here we describe a notable inversion of this...