Alice E. Simpson scite author profile

The orf245 gene is located immediately upstream of, and divergently transcribed from, the replication initiation gene, rep, of the Staphylococcus aureus multiresistance plasmid pSK1, and related genes have been found in association with a range of evolutionarily distinct replication genes on plasmids from various gram-positive genera. orf245 has been shown previously to extend the segregational stability of a pSK1 minireplicon. Here we describe an investigation into the basis of orf245-mediated stabilization. orf245 was not found to influence transcription of pSK1 rep, indicating that it is not directly involved in plasmid replication. This was confirmed by demonstrating that orf245 is able to enhance the segregational stability of heterologous theta-and rolling-circle-replicating replicons, suggesting that it encodes a plasmid maintenance function. Evidence inconsistent with postsegregational killing and multimer resolution mechanisms was obtained; however, the intergenic region upstream of orf245 was found to mediate orf245-dependent incompatibility, as would be expected if it encodes a cis-acting centromere-like site. Taken together, these findings implicate active partitioning as the probable basis of the activity of orf245, which is therefore redesignated par. Since it is unrelated to any gene known to play a role in plasmid segregation, it seems likely that pSK1 par potentially represents the prototype of a novel class of active partitioning systems that are distinguished by their capacity to enhance plasmid segregational stability via a single protein-encoding gene.

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An IS 257 -Derived Hybrid Promoter Directs Transcription of a tetA (K) Tetracycline Resistance Gene in the Staphylococcus aureus Chromosomal mec Region

Simpson

Skurray

Firth

2000

J Bacteriol

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Transcription of the tetA(K) tetracycline resistance determinant encoded by an IS257-flanked cointegrated copy of a pT181-like plasmid, located within the chromosomal mec region of a methicillin-resistant Staphylococcus aureus isolate, has been investigated. The results demonstrated that transcription of tetA(K) in this strain is directed by both an IS257-derived hybrid promoter, which is stronger than the native tetA(K) promoter in the autonomous form of pT181, and a complete outwardly directed promoter identified within one end of IS257. Despite lower gene dosage, the chromosomal configuration was shown to afford a higher level of resistance than that mediated by pT181 in an autonomous multicopy state. Furthermore, competition studies revealed that a strain carrying the chromosomal tetA(K) determinant exhibited a higher level of fitness in the presence of tetracycline but not in its absence. This finding suggests that tetracycline has been a selective factor in the emergence of strains carrying a cointegrated pT181-like plasmid in their chromosomes. The results highlight the potential of IS257 to influence the expression of neighboring genes, a property likely to enhance its capacity to mediate advantageous genetic rearrangements.

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Molecular diversity of soil basidiomycete communities in northern-central New South Wales, Australia

Midgley

Saleeba

Stewart

et al. 2007

Mycological Research

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Molecular Analysis of pSK1 par: A Novel Plasmid Partitioning System Encoded by Staphylococcal Multiresistance Plasmids

Chan

Jensen

LeBard

et al. 2022

Journal of Molecular Biology

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Molecular Analysis of Psk1 Par: A Novel Plasmid Partitioning System Encoded by Staphylococcal Multiresistance Plasmids

Schumacher

Chan²,

Jensen

et al. 2022

SSRN Journal

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Alice E. Simpson

A Single Gene on the Staphylococcal Multiresistance Plasmid pSK1 Encodes a Novel Partitioning System

An IS 257 -Derived Hybrid Promoter Directs Transcription of a tetA (K) Tetracycline Resistance Gene in the Staphylococcus aureus Chromosomal mec Region

Molecular diversity of soil basidiomycete communities in northern-central New South Wales, Australia

Molecular Analysis of pSK1 par: A Novel Plasmid Partitioning System Encoded by Staphylococcal Multiresistance Plasmids

Molecular Analysis of Psk1 Par: A Novel Plasmid Partitioning System Encoded by Staphylococcal Multiresistance Plasmids

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