Unraveling Exogenous DNA Processing in Cas4‐Lacking Crispr Systems: A Novel Bypass Pathway Explored

Author:

Su Xinming12,Jin Xiaoyu12,Wang Zehua12,Duan Shiwei12ORCID

Affiliation:

1. Key Laboratory of Novel Targets and Drug Study for Neural Repair of Zhejiang Province School of Medicine Hangzhou City University Hangzhou Zhejiang 310000 China

2. Department of Clinical Medicine Hangzhou City University Hangzhou Zhejiang 310000 China

Abstract

AbstractClustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR‐associated (Cas) systems are widely distributed adaptive immune systems found in prokaryotes. The process involves three main stages: adaptation, expression, and interference. While the adaptation stage has been extensively studied, there is still an incomplete understanding of the mechanisms underlying the capture, trimming, and integration of exogenous DNA. For instance, Cas4, a CRISPR‐Cas protein with endonuclease activity, is responsible for selecting and processing protospacer adjacent motif (PAM) sequences. However, some CRISPR isoforms lack Cas4 activity, relying on other enzymes for adaptive immunity. Recently, Wang et al. presented a novel model of exogenous DNA processing in a type I‐E CRISPR system lacking Cas4 in a Nature article. This model integrates protospacer processing into CRISPR arrays through fine‐tuned synthases formed by DnaQ‐like exonuclease (DEDDh) and Cas1‐Cas2 complexes. Their study introduces a novel model, shedding new light on the evolution of CRISPR adaptive immunity. This perspective comprehensively examines the fundamental process of CRISPR adaptive immunity, detailing both the classical pathway mediated by Cas4 and the alternative pathway mediated by DEDDh. Furthermore, a thorough evaluation of Wang et al.’s work is conducted, highlighting its strengths, weaknesses, and existing research challenges.

Publisher

Wiley

Subject

General Medicine

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