Anti-CRISPR proteins function through thermodynamic tuning and allosteric regulation of CRISPR RNA-guided surveillance complex

Author:

Patterson Angela1,White Aidan1,Waymire Elizabeth1,Fleck Sophie1,Golden Sarah2,Wilkinson Royce A2ORCID,Wiedenheft Blake2,Bothner Brian1ORCID

Affiliation:

1. Chemistry and Biochemistry Department, Montana State University , Bozeman, MT 59717, USA

2. Microbiology and Cell Biology Department, Montana State University , Bozeman, MT 59717, USA

Abstract

Abstract CRISPR RNA-guided detection and degradation of foreign DNA is a dynamic process. Viruses can interfere with this cellular defense by expressing small proteins called anti-CRISPRs. While structural models of anti-CRISPRs bound to their target complex provide static snapshots that inform mechanism, the dynamics and thermodynamics of these interactions are often overlooked. Here, we use hydrogen deuterium exchange-mass spectrometry (HDX-MS) and differential scanning fluorimetry (DSF) experiments to determine how anti-CRISPR binding impacts the conformational landscape of the type IF CRISPR RNA guided surveillance complex (Csy) upon binding of two different anti-CRISPR proteins (AcrIF9 and AcrIF2). The results demonstrate that AcrIF2 binding relies on enthalpic stabilization, whereas AcrIF9 uses an entropy driven reaction to bind the CRISPR RNA-guided surveillance complex. Collectively, this work reveals the thermodynamic basis and mechanistic versatility of anti-CRISPR-mediated immune suppression. More broadly, this work presents a striking example of how allosteric effectors are employed to regulate nucleoprotein complexes.

Funder

M.J. Murdock Charitable Trust

National Institutes of Health

Office of the Vice President for Research, Economic Development and Graduate Education

NIH

Amgen

Montana State University Agricultural Experimental Station

Publisher

Oxford University Press (OUP)

Subject

Genetics

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