Insertion sequence transposition inactivates CRISPR-Cas immunity.
Yong ShengHengyu WangYixin OuYingying WuWei DingMeifeng TaoShuang-Jun LinZixin DengLinquan BaiQianjin KangPublished in: Nature communications (2023)
CRISPR-Cas immunity systems safeguard prokaryotic genomes by inhibiting the invasion of mobile genetic elements. Here, we screened prokaryotic genomic sequences and identified multiple natural transpositions of insertion sequences (ISs) into cas genes, thus inactivating CRISPR-Cas defenses. We then generated an IS-trapping system, using Escherichia coli strains with various ISs and an inducible cas nuclease, to monitor IS insertions into cas genes following the induction of double-strand DNA breakage as a physiological host stress. We identified multiple events mediated by different ISs, especially IS1 and IS10, displaying substantial relaxed target specificity. IS transposition into cas was maintained in the presence of DNA repair machinery, and transposition into other host defense systems was also detected. Our findings highlight the potential of ISs to counter CRISPR activity, thus increasing bacterial susceptibility to foreign DNA invasion.
Keyphrases
- crispr cas
- genome editing
- dna repair
- escherichia coli
- genome wide
- circulating tumor
- dna damage
- cell migration
- cell free
- copy number
- single molecule
- signaling pathway
- dna methylation
- genome wide identification
- bioinformatics analysis
- dna damage response
- gene expression
- dna binding
- transcription factor
- biofilm formation
- pseudomonas aeruginosa