vaginalis strains analysed so far were isolated from symptomatic

vaginalis strains analysed so far were isolated from symptomatic and asymptomatic BV patients, while only few strains were obtained from the vaginas of healthy women, could be an impetus moving forward to elucidate a link between commensal G. vaginalis strains and

CRISPR/Cas loci (Table 1). Recent findings on the role of Cas proteins in providing adaptive immunity to bacteria [39, 43, 57] may motivate experimental testing of hypotheses on how CRISPR/Cas impacts the regulation of the transfer of genetic material among G. vaginalis strains. The present study is the first attempt to determine and analyse CRISPR loci in bacteria isolated from the human vaginal tract. The relationship between prokaryotes Adriamycin manufacturer and their environment that is recorded in the spacer sequences of CRISPR loci sheds light into the genomic evolution of G. vaginalis. Conclusions The CRISPR/Cas system was detected in the genomes of about one- half of the analysed G. vaginalis strains. The cas genes in the CRISPR/Cas loci of G. vaginalis belong to the Ecoli subtype. A total of 285 PI3K Inhibitor Library screening spacers adjacent to the cas genes were identified among the 20 G. vaginalis strains containing CRISPR/Cas loci. Approximately 20% of all of the spacers in the CRISPR

arrays had matches in the GenBank database. Sequence analysis of the CRISPR arrays revealed that nearly half of the spacers matched G. vaginalis chromosomal sequences. The spacers sharing identity with these chromosomal sequences were determined to not be self-targeting, and presumably were neither a constituent of mobile-element-associated

genes nor originated from plasmids/viruses. The spacer hits were mapped to G. vaginalis chromosomal genes, non-coding Mocetinostat research buy regions, or ORF’s encoding hypothetical proteins with undefined functions. The protospacers located on the G. vaginalis chromosome display conserved PAMs. We did not find a link between the presence of CRISPR loci and the known virulence features of G. vaginalis. Based on the origin of the spacers found in the G. vaginalis CRISPR arrays, we hypothesise that the transfer of genetic material among G. vaginalis strains could be Adenosine regulated by the CRISPR/Cas mechanism. Our findings may provide deeper insights into the genetics of G.vaginalis and promote further studies on the role of G. vaginalis in the microbiome of its host. Acknowledgements We thank Dr. Albertas Timinskas for bioinformatics assistance in the design of primers for CRISPR loci amplification. We are grateful to Prof. Virginijus Siksnys for a critical reading of the manuscript. Electronic supplementary material Additional file 1: Accession numbers of the draft genomes of G. vaginalis strains used in the study. (DOCX 12 KB) Additional file 2: Primers used for CRISPR loci and cas genes amplification. (DOCX 13 KB) Additional file 3: A. Analysis of CRISPR spacers matched to chromosomal sequences of G. vaginalis origin. B. Analysis of CRISPR spacers matched to chromosomal sequences of non-G.vaginalis origin.

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