Open Access
Novel molecular aspects of the CRISPR backbone protein ‘Cas7’ from cyanobacteria
Author(s) -
Prakash Kalwani,
Devashish Rath,
Anand Ballal
Publication year - 2020
Publication title -
biochemical journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.706
H-Index - 265
eISSN - 1470-8728
pISSN - 0264-6021
DOI - 10.1042/bcj20200026
Subject(s) - rna , rna recognition motif , biology , biochemistry , anabaena , mutant , structural motif , cyanobacteria , microbiology and biotechnology , rna binding protein , gene , genetics , bacteria
The cyanobacterium Anabaena PCC 7120 shows the presence of Type I-D CRISPR system that can potentially confer adaptive immunity. The Cas7 protein (Alr1562), which forms the backbone of the type I-D surveillance complex, was characterized from Anabaena. Alr1562, showed the presence of the non-canonical RNA recognition motif and two intrinsically disordered regions (IDRs). When overexpressed in E. coli, the Alr1562 protein was soluble and could be purified by affinity chromatography, however, deletion of IDRs rendered Alr1562 completely insoluble. The purified Alr1562 was present in the dimeric or a RNA-associated higher oligomeric form, which appeared as spiral structures under electron microscope. With RNaseA and NaCl treatment, the higher oligomeric form converted to the lower oligomeric form, indicating that oligomerization occurred due to the association of Alr1562 with RNA. The secondary structure of both these forms was largely similar, resembling that of a partially folded protein. The dimeric Alr1562 was more prone to temperature-dependent aggregation than the higher oligomeric form. In vitro, the Alr1562 bound more specifically to a minimal CRISPR unit than to the non-specific RNA. Residues required for binding of Alr1562 to RNA, identified by protein modeling-based approaches, were mutated for functional validation. Interestingly, these mutant proteins, showing reduced ability to bind RNA were predominantly present in dimeric form. Alr1562 was detected with specific antiserum in Anabaena, suggesting that the type I-D system is expressed and may be functional in vivo. This is the first report that describes the characterization of a Cas protein from any photosynthetic organism.