Litcius/Paper detail

Bacteriophage T4 Escapes CRISPR Attack by Minihomology Recombination and Repair

Xiaorong Wu, Jingen Zhu, Tao Pan, Venigalla B. Rao

2021mBio37 citationsDOIOpen Access PDF

Abstract

Bacteriophages (phages) are viruses that infect bacteria and use them as replication factories to assemble progeny phages. Bacteria have evolved powerful defense mechanisms to destroy the invading phages by severing their genomes soon after entry into cells. We discovered a counterdefense mechanism evolved by phage T4 to stitch back the broken genomes and restore viral infection. In this process, a small amount of genetic material is deleted or another mutation is introduced, making the phage resistant to future bacterial attack. The mutant virus might also gain survival advantages against other restriction conditions or DNA damaging events. Thus, bacterial attack not only triggers counterdefenses but also provides opportunities to generate more fit phages. Such defense and counterdefense mechanisms over the millennia led to the extraordinary diversity and the greatest abundance of bacteriophages on Earth. Understanding these mechanisms will open new avenues for engineering recombinant phages for biomedical applications.

Topics & Concepts

BacteriophageCRISPRBiologyBacteriaGenomeVirologyGeneticsMicrobiologyGeneEscherichia coliCRISPR and Genetic EngineeringBacteriophages and microbial interactionsEvolution and Genetic Dynamics
Bacteriophage T4 Escapes CRISPR Attack by Minihomology Recombination and Repair | Litcius