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- Title
Structural and biochemical insights into the mechanism of the Gabija bacterial immunity system.
- Authors
Huo, Yanwu; Kong, Lingfei; Zhang, Ye; Xiao, Min; Du, Kang; Xu, Sunyuntao; Yan, Xiaoxue; Ma, Jun; Wei, Taotao
- Abstract
The Gabija system is a newly discovered bacterial immune system that consists of GajA and GajB. Here we report the cryo-EM structure of the Gabija complex from Bacillus cereus VD045 at 3.6 Å, which provides the direct evidence of interactions between GajA and GajB. The Gabija complex is an octameric ring structure with four GajA and four GajB. GajA is an OLD nucleases family protein, while GajB belongs to the SF1 helicases. The Gabija complex has sequence-specific DNA nuclease activity and prefers circular rather than linear DNA as substrate, its activity is more sensitive to concentrations change of nucleotides compared to GajA alone. Our data suggest a mechanism of Gabija immunity: the nuclease activity of Gabija complex is inhibited under physiological conditions, while it is activated by depletion of NTP and dNTP upon the replication and transcription of invading phages and cleave the circular DNA to prevent phage DNA replication. The Gabija system is a newly discovered bacterial immune system. Here, the authors report the EM structure of the Gabija complex at 3.6 Å. Here, the authors show that when invading phages depletes cellular NTP and dNTP, the nuclease activity of Gabija complex is activated and cleaves the circular DNA to prevent phage DNA replication.
- Subjects
CIRCULAR DNA; DNA replication; BACILLUS cereus; IMMUNITY; HELICASES; IMMUNE system; DNA helicases
- Publication
Nature Communications, 2024, Vol 15, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-024-45173-7