Oyut Dagva scite author profile

Understanding mechanisms that shape horizontal exchange in prokaryotes is a key problem in biology. A major limit on DNA entry is imposed by restriction-modification (RM) processes that depend on the pattern of DNA modification at host-specified sites. In classical RM, endonucleolytic DNA cleavage follows detection of unprotected sites on entering DNA. Recent investigation has uncovered BREX (BacteRiophage EXclusion) systems. These RM-like activities employ host protection by DNA modification, but immediate replication arrest occurs without evident of nuclease action on unmodified phage DNA. Here we show that the historical stySA RM locus of Salmonella enterica sv Typhimurium is a variant BREX system. A laboratory strain disabled for both the restriction and methylation activity of StySA nevertheless has wild type sequence in brxX, the modification gene homolog. Instead, flanking genes pglZ and brxC each carry multiple mutations (μ) in their C-terminal domains. We further investigate this system in situ, replacing the mutated pglZμ and brxCμ genes with the WT counterpart. PglZ-WT supports methylation in the presence of either BrxCμ or BrxC-WT but not in the presence of a deletion/insertion allele, ΔbrxC::cat. Restriction requires both BrxC-WT and PglZ-WT, implicating the BrxC C-terminus specifically in restriction activity. These results suggests that while BrxC, PglZ and BrxX are principal components of the BREX modification activity, BrxL is required for restriction only. Furthermore, we show that a partial disruption of brxL disrupts transcription globally.

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Genome archaeology of two laboratory Salmonella enterica enterica sv Typhimurium

Zaworski

Dagva

Kingston

et al. 2021

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The Salmonella research community has used strains and bacteriophages over decades, exchanging useful new isolates among laboratories for study of cell surface antigens, metabolic pathways and restriction-modification studies. Here we present the sequences of two laboratory Salmonella strains (STK005, an isolate of LB5000; and its descendant ER3625). In the ancestry of LB5000, segments of ∼15 and ∼42 kb were introduced from Salmonella enterica sv Abony 103 into Salmonella enterica sv Typhimurium LT2, forming strain SD14; this strain is thus a hybrid of S. enterica isolates. Strains in the SD14 lineage were used to define flagellar antigens from the 1950s to the 1970s, and to define three restriction-modification systems from the 1960s to the 1980s. LB5000 was also used as host in phage typing systems used by epidemiologists. In the age of cheaper and easier sequencing, this resource will provide access to the sequence that underlies the extensive literature.

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Reassembling a cannon in the DNA defense arsenal: genetics of StySA, a BREX phage exclusion system in Salmonella lab strains

Zaworski

Dagva

Brandt

et al. 2021

Preprint

View full text Add to dashboard Cite

Understanding mechanisms that shape horizontal exchange in prokaryotes is a key problem in biology. A major limit on DNA entry is imposed by restriction-modification (RM) processes that depend on the pattern of DNA modification at host-specified sites. In classical RM, endonucleolytic DNA cleavage follows detection of unprotected sites on entering DNA. Recent investigation has uncovered BREX systems, RM-like activities that employ host protection by DNA modification but replication arrest without evident nuclease action on unmodified phage DNA. We show that the historical stySA RM locus of Salmonella enterica sv Typhimurium is a BREX homolog. The stySA29 allele of the hybrid strain LB5000 carries a mutated version of the ancestral LT2 BREX system. Surprisingly, both a restriction and a methylation defect are observed for this lineage despite lack of mutations in brxX, the modification gene homolog. Instead, flanking genes pglZ and brxC each carry multiple mutations (μ) in C-terminal domains. To avoid plasmid artifacts and potential stoichiometric interference, we chose to investigate this system in situ, replacing the mutated pglZμ and brxCμ genes with wild type (WT). PglZ-WT supports methylation in the presence of either BrxCμ or BrxC-WT but not in the presence of a deletion/insertion allele, ΔbrxC::cat. Restriction of phage L requires both BrxC-WT and PglZ-WT, implicating the BrxC C-terminus specifically in restriction activity. Disruption of four other CDS with cat cassettes still permitted modification, suggesting that BrxC, PglZ and BrxX are principal components of the modification activity. BrxL is required for restriction only. A partial disruption of brxL disrupts transcription globally.

show abstract

Genome archaeology of two laboratorySalmonella enterica entericasv Typhimurium

Zaworski

Dagva

Kingston

et al. 2021

Preprint

View full text Add to dashboard Cite

The Salmonella research community has used strains and bacteriophages over decades, exchanging useful new isolates among laboratories for study of cell surface antigens, metabolic pathways and restriction-modification studies. Here we present the sequences of two laboratory Salmonella strains (STK005, an isolate of LB5000; and its descendant ER3625). In the ancestry of LB5000, segments of ~15 and ~42 kb were introduced from Salmonella enterica sv Abony 103 into Salmonella enterica sv Typhimurium LT2, forming strain SD14; this strain is thus a hybrid of S. enterica isolates. Strains in the SD14 lineage were used to define flagellar antigens from the 1950s to the 1970s, and to define three restriction-modification systems from the 1960s to the 1980s. LB5000 was also used as host in phage typing systems used by epidemiologists. In the age cheaper and easier sequencing, this resource will provide access to the sequence that underlies the extensive literature.

show abstract

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Oyut Dagva

Reassembling a cannon in the DNA defense arsenal: Genetics of StySA, a BREX phage exclusion system in Salmonella lab strains

Genome archaeology of two laboratory Salmonella enterica enterica sv Typhimurium

Reassembling a cannon in the DNA defense arsenal: genetics of StySA, a BREX phage exclusion system in Salmonella lab strains

Genome archaeology of two laboratorySalmonella enterica entericasv Typhimurium

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