Project description:We collected sequences amplified from three HBV-genome-encoding plasmids, one wild type and two with predefined point mutations.

Project description:<p>Gut environments harbour dense microbial ecosystems in which plasmids are widely distributed. Plasmids facilitate the exchange of genetic material among microorganisms while enabling the transfer of a diverse array of accessory functions. However, their precise impact on microbial community composition and function remains largely unexplored. Here we identify a prevalent bacterial toxin and a plasmid-encoded resistance mechanism that mediates the interaction between Lactobacilli and Enterococci. This plasmid is widespread across ecosystems, including the rumen and human gut microbiota. Biochemical characterization of the plasmid revealed a defence mechanism against reuterin, a toxin produced by various gut microbes, such as Limosilactobacillus reuteri. Using a targeted metabolomic approach, we find reuterin to be prevalent across rumen ecosystems with impacts on microbial community structure. Enterococcus strains carrying the protective plasmid were isolated and their interactions with L. reuteri, the toxin producer, were studied in vitro. Interestingly, we found that by conferring resistance against reuterin, the plasmid mediates metabolic exchange between the defending and the attacking microbial species, resulting in a beneficial relationship or mutualism. Hence, we reveal here an ecological role for a plasmid-coded defence system in mediating a beneficial interaction. </p>

Project description:Caecum microbial diversity for young broiler

Project description:We combined Self-Transcribing Active Regulatory Region Sequencing (STARR-seq) with an enrichment step using chromatin immunoprecipitation in a massively parallel reporter assay. We applied this assay, termed ChIP-STARR-seq, to normal (primed) and naive human embryonic stem cells, building up a comprehensive catalogue of functional enhancers. This database record describes the DNA-seq component from isolated plasmids.

Project description:Tn insertion library was used for recipient for conjugative transfer of pESBL, F, and R388 plasmids. For both recipient and the resulting exconjugant libraries, Tn insertion sites were determined by illumina sequencing

Project description:Integrative and conjugative elements (ICEs), a.k.a., conjugative transposons, are mobile genetic elements involved in many biological processes, including the spread of antibiotic resistance. Unlike conjugative plasmids that are extra-chromosomal and replicate autonomously, ICEs are integrated in the chromosome and replicate passively during chromosomal replication. It is generally thought that ICEs do not replicate autonomously. We found that when induced, Bacillus subtilis ICEBs1 replicates as a plasmid. The ICEBs1 origin of transfer (oriT) served as the origin of replication and the conjugal DNA relaxase served as the replication initiation protein. Autonomous replication of ICEBs1 conferred genetic stability to the excised element, but was not required for mating. The B. subtilis helicase PcrA that mediates unwinding and replication of Gram-positive rolling circle replicating plasmids was required for ICEBs1 replication and mating. Nicking of oriT by the relaxase and unwinding by PcrA likely directs transfer of a single-strand of ICEBs1 into recipient cells. This SuperSeries is composed of the SubSeries listed below.

Project description:We generated a collection of 13 plasmids, with each plasmid containing a variant of a CRISPR protospacer targeted by spacer 8 of the E. coli CRISPR-I array. We transformed the plasmids as a pool into delta cas3 E. coli cells expressing all other cas genes constitutively. We then transformed these cells with either an empty vector or a plasmid expressing the Cas3 nuclease. DNA surrounding the protospacers was PCR-amplified and sequenced.

Project description:L. lactis NIAI712 carries five different plasmids, including an 8.7-kb plasmid designated pAG6. In this study, genome-wide expression profiles of the pAG6-cured variant was compared to the wild-type strain.

Project description:Plasmids of distinct IncK lineages show a compatible phenotype

Project description:Plasmid fitness is directed by two orthogonal processes—vertical transfer through cell division and horizontal transfer through conjugation. When considered individually, improvements in either mode of transfer can promote how well a plasmid spreads and persists. Together, however, the metabolic cost of conjugation could create a tradeoff that constrains plasmid evolution. Here we present evidence for the presence, consequences, and molecular basis of a conjugation-growth tradeoff across 40 plasmids derived from clinical E. coli pathogens. We discover that most plasmids operate below a conjugation efficiency threshold for major growth effects, indicating strong natural selection for vertical transfer. Below this threshold, E. coli demonstrates a remarkable growth tolerance to over four orders of magnitude change in conjugation efficiency. This tolerance fades as nutrients become scarce and horizontal transfer attracts a greater share of host resources. Our results provide insight into evolutionary constraints directing plasmid fitness and strategies to combat the spread of antibiotic resistance.