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[2013] Conservation and variability in the structure and function of the Cas5d endoribonuclease in the CRISPR-mediated microbial immune system
Journal
J Mol Biol 425(20): 3799-3810
Authors
Yoon, K.#, Ka, D.#, Kim, E.J., Suh, N.* and Bae, E.*
#Denotes Equal Contribution
*Denotes Corresponding Author
Abstract
Journal
J Mol Biol 425(20): 3799-3810
Authors
Yoon, K.#, Ka, D.#, Kim, E.J., Suh, N.* and Bae, E.*
#Denotes Equal Contribution
*Denotes Corresponding Author
Abstract
Clustered regularly interspaced short palindromic repeats (CRISPRs) and CRISPR-associated (Cas) proteins form an RNA-mediated microbial immune system against invading foreign genetic elements. Cas5 proteins constitute one of the most prevalent Cas protein families in CRISPR-Cas systems and are predicted to have RNA recognition motif (RRM) domains. Cas5d is a subtype I-C-specific Cas5 protein that can be divided into two distinct subgroups, one of which has extra C-terminal residues while the other contains a longer insertion in the middle of its N-terminal RRM domain. Here, we report crystal structures of Cas5d from Streptococcus pyogenes and Xanthomonas oryzae, which respectively represent the two Cas5d subgroups. Despite a common domain architecture consisting of an N-terminal RRM domain and a C-terminal β-sheet domain, the structural differences between the two Cas5d proteins are highlighted by the presence of a unique extended helical region protruding from the N-terminal RRM domain of X. oryzae Cas5d. We also demonstrate that Cas5d proteins possess not only specific endoribonuclease activity for CRISPR RNAs but also nonspecific double-stranded DNA binding affinity. These findings suggest that Cas5d may play multiple roles in CRISPR-mediated immunity. Furthermore, the specific RNA processing was also observed between S. pyogenes Cas5d protein and X. oryzae CRISPR RNA and vice versa. This cross-species activity of Cas5d provides a special opportunity for elucidating conserved features of the CRISPR RNA processing event.