Saliva and skin samples were frozen at -80°C prior to use in this study. All AM time points were
collected prior to meals or oral hygiene practices, the noon time point was collected prior to lunch, and the PM time point was collected prior to dinner. The study was not controlled for cutaneous hygiene practices. Amplification and binning of streptococcal CRISPR spacers From each subject, genomic DNA was prepared from GSK126 saliva and skin using Qiagen QIAamp DNA MINI kit (Qiagen, Valencia, CA). Each sample was subjected to a bead beating step prior to nucleic acid extraction using Lysing Matrix-B (MP Bio, Santa Ana, CA). SGI and SGII CRISPR primers were designed based on their specificity to the CRISPR repeat motifs present in S. gordonii str. Challis substr. CH1 and S. mutans UA159, and included barcode sequences (Additional file 1: Table S1) [14]. Each primer was used to amplify CRISPRs from saliva and skin-derived DNA by PCR. Reaction conditions included 45 μl Platinum High Fidelity Supermix (Life Technologies, Grand Island, NY), 1 μl of each of the forward and reverse CH5424802 price primer (20 pmol each), and 3 μl salivary or skin-derived DNA template. The cycling parameters were 3 minutes initial denaturation at 95°C, followed by 30 cycles of denaturation (60 seconds at 95°C), annealing (60 seconds), and extension (5 minutes
at 72°C), followed by a final extension (10 minutes at 72°C). CRISPR amplicons were gel extracted using the Qiagen MinElute Kit (Qiagen, Valencia, CA) including
buffer QG and find more further purified using Ampure beads (Beckman-Coulter, Brea, CA). Molar equivalents were determined from each product using an Agilent Bioanalyzer HS DNA Kit (Agilent, Santa Clara, CA), and each were pooled into molar equivalents. Resulting pools were sequenced on 314 chips using an Ion Torrent Personal Genome Niclosamide Machine (PGM) according to manufacturer’s instructions (Life Technologies, Grand Island, NY) [36]. Barcoded sequences then were binned according to 100% matching barcodes. Each read was trimmed according to modified Phred scores of 0.5, and low complexity reads (where >25% of the length were due to homopolymer tracts) and reads with ambiguous characters were removed prior to further analysis using CLC Genomics Workbench 4.65 (CLC bio USA, Cambridge, MA). Only those reads that had 100% matching sequences to both the 5’ and the 3’ end of the CRISPR repeat motifs were used for further evaluation. Spacers were defined as any nucleotide sequences (length ≥20) in between repeat motifs. Spacers then were grouped according to their trinucleotide content, as previously described [10]. Briefly, the trinucleotide content was compiled for all spacers and added to a database. For each spacer sequence, the difference in trinucleotide content was compared between all possible spacer pairs.