We attempted to find and include spacer sequences from CRISPR rep

We attempted to find and include spacer sequences from CRISPR repeat motifs not known to be present in Streptococcus, including repeat motifs found in species of Gemella, Veillonella, Leptotrichia, and Kingella, but their presence was not uniform on the skin (data not shown). Because of the error rate of Ion Torrent

sequencing [36], we took additional precautions to reduce sequencing error biases in our analysis of CRISPR spacers. Each CRISPR-bearing read was trimmed according MDV3100 to quality scores, and was removed if it had significant homopolymer tracts. We specifically removed any CRISPR-bearing reads from the analysis that did not match the known consensus repeat motifs, as those reads were more likely to contain sequencing errors. The combination of these techniques reduced the error rate from approximately 1% to an estimated 0.001 and 0.002% for SGI and SGII CRISPR spacers, respectively. Our previous studies of CRISPR repertoires in humans had been performed using conventional Sanger sequencing, however we now have extended our analysis using next-generation sequencing techniques. The primary benefit of the current technique was that we were able to achieve greater sampling depth, which allowed for more robust comparisons of skin and salivary CRISPRs with fewer unsampled spacers. Our data on shared

CRISPR spacers between skin and saliva revealed several qualities about CRISPRs on human body surfaces: 1) fewer spacers GSK1120212 datasheet were shared between subjects than within subjects, suggesting

that CRISPR repertoires were individual specific, 2) the Selleck Capmatinib substantial persistence of spacers, suggesting that the bacteria harboring them were conserved over the time period studied, and 3) the level of shared spacers between skin and saliva in individual subjects (FigureĀ 1 and Additional file 2: Figure S2), which raises the possibility that skin-derived bacteria may have encountered viruses with similar sequences to those in the mouth. While it is possible that some of the spacers were acquired through independent means [10], the substantial levels Edoxaban of shared spacers between skin and saliva suggests some vertical or horizontal acquisitions. Despite our inability to reconstruct many CRISPR loci using this short-read technology, our finding that many spacers from previously sequenced S. thermophilus isolates were present in this cohort suggests that those loci may be present in this study with their spacer content and order intact. Because the location of the CRISPR loci in our subjects was variable, we were unable investigate them robustly by PCR amplification using their flanking regions, followed by Sanger sequencing. We initially hypothesized that there would be large groups of spacers specific to saliva and specific to skin that would be unique to each body surface.

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