In Vivo Diversification of Target Genomic Sites Using Processive Base Deaminase Fusions Blocked by DCas9

Overview

Journal Nat Commun

Specialty Biology

Date 2020 Dec 23

PMID 33353963

Citations 30

Authors

Beatriz Alvarez

Mario Mencia

Victor de Lorenzo

Luis Angel Fernandez

Affiliations

Soon will be listed here.

Abstract

In vivo mutagenesis systems accelerate directed protein evolution but often show restricted capabilities and deleterious off-site mutations on cells. To overcome these limitations, here we report an in vivo platform to diversify specific DNA segments based on protein fusions between various base deaminases (BD) and the T7 RNA polymerase (T7RNAP) that recognizes a cognate promoter oriented towards the target sequence. Transcriptional elongation of these fusions generates transitions C to T or A to G on both DNA strands and in long DNA segments. To delimit the boundaries of the diversified DNA, the catalytically dead Cas9 (dCas9) is tethered with custom-designed crRNAs as a "roadblock" for BD-T7RNAP elongation. Using this T7-targeted dCas9-limited in vivo mutagenesis (T7-DIVA) system, rapid molecular evolution of the antibiotic resistance gene TEM-1 is achieved. While the efficiency is demonstrated in E. coli, the system can be adapted to a variety of bacterial and eukaryotic hosts.

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