Litcius/Paper detail

Crystal structure of the anti-CRISPR repressor Aca2

B. F. Usher, Nils Birkholz, Izaak N. Beck, Robert D. Fagerlund, Simon A. Jackson, Peter C. Fineran, Tim R. Blower

2021Journal of Structural Biology11 citationsDOIOpen Access PDF

Abstract

Bacteria use adaptive CRISPR-Cas immune mechanisms to protect from invasion by bacteriophages and other mobile genetic elements. In response, bacteriophages and mobile genetic elements have co-evolved anti-CRISPR proteins to inhibit the bacterial defense. We and others have previously shown that anti-CRISPR associated (Aca) proteins can regulate this anti-CRISPR counter-attack. Here, we report the first structure of an Aca protein, the Aca2 DNA-binding transcriptional autorepressor from Pectobacterium carotovorum bacteriophage ZF40, determined to 1.34 Å. Aca2 presents a conserved N-terminal helix-turn-helix DNA-binding domain and a previously uncharacterized C-terminal dimerization domain. Dimerization positions the Aca2 recognition helices for insertion into the major grooves of target DNA, supporting its role in regulating anti-CRISPRs. Furthermore, database comparisons identified uncharacterized Aca2 structural homologs in pathogenic bacteria, suggesting that Aca2 represents the first characterized member of a more widespread family of transcriptional regulators.

Topics & Concepts

CRISPRRepressorBiologyDNABacteriophageMobile genetic elementsCRISPR interferenceHelicaseGeneticsBacteriaComputational biologyGeneCell biologyRNACas9Transcription factorPlasmidEscherichia coliCRISPR and Genetic EngineeringBacterial Genetics and BiotechnologyVibrio bacteria research studies