AI Article Synopsis
- Three large cryptic plasmids from Acidithiobacillus caldus were studied, with the largest being a 65-kb plasmid called pTcM1 isolated from South Africa.
- The plasmids were sequenced and compared, revealing a common backbone in all three, with pC-SH12 showing a 2.7-kb insertion but otherwise mostly shared DNA.
- The larger plasmids, pTcM1 and pTcF1, contain additional genetic elements like insertion sequences and a composite transposon, including genes related to arsenic resistance and plasmid stability.
Article Abstract
Three large cryptic plasmids from different isolates of Acidithiobacillus caldus were rescued by using an in vitro transposition system that delivers a kanamycin-selectable marker and an Escherichia coli plasmid origin of replication. The largest of the plasmids, the 65-kb plasmid pTcM1, was isolated from a South African A. caldus strain, MNG. This plasmid was sequenced and compared to that of pTcF1 (39 kb, from strain "f," South Africa) and pC-SH12 (29 kb, from strain C-SH12, Australia). With the exception of a 2.7-kb insertion sequence, pC-SH12 appears to represent the DNA common to all three plasmids and includes a number of accessory genes plus the plasmid "backbone" containing the replication region. The two larger plasmids carry, in addition, a number of insertion sequences of the ISL3 family and a composite transposon related to the Tn21 subfamily containing a highly mosaic region within the borders of the inverted repeats. Genes coding for arsenic resistance, plasmid mobilization, plasmid stability, and a putative restriction-modification system occur within these mosaic regions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2493190 | PMC |
| http://dx.doi.org/10.1128/AEM.00864-08 | DOI Listing |
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