?
 
Anti-CRISPR type II subtype A2b AcrIIA2b is an anti-CRISPR (Acr) protein which is homolog to AcrIIA2 but they are different in the temperature dependence of Cas9 inhibition. AcrIIA2b, like AcrIIA2, interacts with the protospacer adjacent motif (PAM) recognition residues of Cas9, preventing target double-stranded DNA (dsDNA) detection and Cas9 binding to DNA. Differences in the temperature dependence of Cas9 inhibition by AcrIIA2 and AcrIIA2b arise from differences in both inhibitor structure and the local inhibitor-binding environment on Cas9. This difference expands the natural toolbox for regulating CRISPR-Cas9 genome editing temporally, spatially, and conditionally. Almost all type II Acr proteins characterized to date directly interact with the Cas9 endonuclease, although by distinct mechanisms. The type II CRISPR/Cas subtype has a distinct crRNA-guided surveillance complex encoded by cas9 (formerly csn1), cas1, cas2, and csn2 (for type IIA) or cas4 (for type IIB) genes, all located in a single transcriptional unit directly upstream of the CRISPR locus. Cleavage of the DNA target in type II systems is carried out by Cas9 which is an RNA-guided double-stranded DNase with two independent nuclease domains, HNH and RuvC. Due to the reliance of the type II system on a single protein for function, Cas9 homologs derived from different subtypes and species have been utilized for numerous gene editing applications. CRISPR-Cas immune systems are used by certain prokaryotes and archaea to resist the invasion of foreign nucleic acids such as phages or plasmids. Anti-CRISPRs are small proteins which are the natural inhibitors for CRISPR-Cas systems; encoded on bacterial and archaeal viruses, they allow the virus to evade host CRISPR-Cas systems. The CRISPR-Cas-mediated adaptive immune response can be divided into three steps, including the acquisition of spacer derived from invading nucleic acids, crRNA processing, and target degradation. Theoretically, Acr proteins could suppress any step to disrupt the CRISPR-Cas system. Acr proteins are diverse with no common sequence or structural motif, and they inhibit a wide range of CRISPR-Cas systems with various inhibition mechanisms. CRISPR-Cas systems are divided into two classes (1 and 2) and six types (class 1: types I, III and IV; class 2: types II, V and VI). Class 2 systems employ a single multi-domain effector Cas9 protein complex that performs target recognition and cleavage. Acr families are named for their type and subtype which are numbered sequentially as they are discovered. |
Jiyao W et al.(2023). "The conserved domain database in 2023.",