An investigation of horizontal transfer of feed introduced DNA to the aerobic microbiota of the gastrointestinal tract of rats

Background: Horizontal gene transfer through natural transformation of members of the microbiota of the lower gastrointestinal tract (GIT) of mammals has not yet been described. Insufficient DNA sequence similarity for homologous recombination to occur has been identified as the major barrier to interspecies transfer of chromosomal DNA in bacteria. In this study we determined if regions of high DNA similarity between the genomes of the indigenous bacteria in the GIT of rats and feed introduced DNA could lead to homologous recombination and acquisition of antibiotic resistance genes. Results: Plasmid DNA with two resistance genes (nptII and aadA) and regions of high DNA similarity to 16S rRNA and 23S rRNA genes present in a broad range of bacterial species present in the GIT, where constructed and added to standard rat feed. Six rats, with a normal microbiota, were fed DNA containing pellets daily over four days before sampling of the microbiota from the different GI compartments (stomach, small intestine, cecum and colon). In addition, two rats were included as negative controls. Antibiotic resistant colonies growing on selective media were screened for recombination with feed introduced DNA by PCR targeting unique sites in the putatively recombined regions. Conclusions: The analyses showed that extensive ingestion of DNA (100 \ub5g plasmid) per day did not lead to increased proportions of kanamycin resistant bacteria, nor did it produce detectable transformants among the aerobic microbiota examined for 6 rats (detection limit <1 transformant per 1.1 x 108 cultured bacteria). The key methodological challenges to HGT detection in animal feedings trials are identified and discussed

Functional insights into pG12, a cryptic rolling-circle replicating plasmid from Bacillus thuringiensis

Detailed functional analysis revealed the modular organization of pGl2, a 9672 bp plasmid from Bacillus thuringiensis H1.1 that harbours the 4149 bp transposon Tn4430. whereas the pGl2 leading-strand replicon was identified through deletion experiments, sequence comparisons indicated the presence of an sso(t)-like single-strand origin commonly found among Bacillus plasmids. Southern hybridization confirmed the existence of ssDNA intermediates, but only in the case of plasmid derivatives lacking the sso(t) site. Moreover the pGl2. replication protein Rep displayed significant similarity with that of pTX 14-3. a 7.6 kb plasmid from B. thuringiensis serovar israelensis, suggesting that both elements are representatives of a new family of rolling-circle replicating (RCR) plasmids. In addition, both plasmids share a conserved 320 bp region downstream of their rep genes which, in the case of pGl2, appeared indispensable for replication. This region is therefore likely to correspond to, or to be part of, the actual double-strand origin of both plasmids. Another interesting feature of pC12 is the presence of a mobilization (Mob) protein, as demonstrated by its ability to be mobilized by the conjugative plasmid pAW63 from B. thuringiensis serovar kurstaki HD73. The same transfer system was also used to unambiguously demonstrate similar properties of the related Mob-like protein from pTX14-3. A closer analysis of this family of related Mob proteins suggested a subdomanial organization among its members. Finally, the 270 residue pGl2 ORF2 was shown to be related to ORF43 of pMRC01, a 60 kb conjugative plasmid from Lactococcus lactis subsp, lactis. Although no function has been assigned to the putative ORF43 protein, it is located downstream of a bacteriocin operon, next to an IS946 element. pGl2 appears thus far as an assemblage of functional modules with no obvious metabolic function, presumably acting as a reservoir of carrier (rep and sso), rearrangement (Tn4430) or recruiting (Mob) entities for its bacterial host

The patchwork nature of rolling-circle plasmids: comparison of six plasmids from two distinct Bacillus thuringiensis serotypes

Bacillus thuringiensis, the entomopathogenic bacteria from the Bacillus cereus group, harbors numerous extrachromosomal molecules whose sizes vary from 2 to more than 200 kb. Apart from the genes coding for the biopesticide delta-endotoxins located on large plasmids, little information has been obtained on these plasmids and their contribution to the biology of their host. In this paper, we embarked on a detailed comparison of six small rolling-circle replicating (RCR) plasmids originating from two major B. thuringiensis strains. The complete nucleotide sequences of plasmid pGIl, pGI2, pGI3, pTX14-1, pTX14-2, and pTX14-3 have been obtained and compared. Replication functions, comprising, for each plasmid, the gene encoding the Rep-protein, double-strand origin of replication (dso), single-strand origin of replication (sso), have been identified and analyzed. Two new families, or homology groups, of RCR plasmids originated from the studies of these plasmids (Group VI based on pGI3 and Group VII based on pTX14-3). On five of the six plasmids, loci involved in conjugative mobilization (Mob-genes and origin of transfer (oriT)) were identified. Plasmids pTX14-1, pTX14-2, and pTX14-3 each harbor an ORF encoding a polypeptide containing a central domain with repetitive elements similar to eukaryotic collagen (Gly-X-Y triplets). These genes were termed bcol for Bacillus-collagen-like genes. (C) 2003 Elsevier Science (USA). All rights reserved