N 10 fold at Time point 1 and Time point 2 suggesting that the level of genital inflammation in an animal is relatively stable.The Diverse Vaginal Microbiome of RM is Relatively StableThe lower genital tract microbiota in female rhesus macaques was analyzed at both time points by Multitag pyrosequencing. At Time point 1 (March 2011), 29 macaques were analyzed and the eight most predominant genera were Porphyromonas, Prevotella, Sneathia, Proteiniphilum, Catonella, Campylobacter, Peptoniphilis and Mobiluncus (Table 1). Porphyromonas sequences were present in 93 of the macaques and on average comprised 17 15900046 of the sequences. Eight months later (November 2011), microbiome from 35 macaques was buy BIBS39 similarly analyzed. Porphyromonas sequences were again present in nearly all (97 ) of macaques and were on average the highest fraction of sequences (26 ). The other seven most predominant genera were all again present at similar levels except for Campylobacter. At both time points the microbiome was relatively diverse with an average of 13 genera at Time pointCervicovaginal Inflammation in Rhesus Macaquespotential associations between host gene mRNA levels and bacterial DNA levels using a Spearman’s correlation function there was a limited network of strong (.0.7) correlations between chemokines/cytokines and microbiota A) at time point 1; B) at time point 2. C) Intersection of strong correlations that existed at both Time 1 and Time 2. Blue circles, host gene mRNA levels, green circles host protein levels, pink circles bacterial DNA levels. The blue lines indicate a positive correlation between the parameters in the circles and the width of the line is proportional to the strength of the correlation. The red lines indicate a negative correlation between the parameters in the circles and the width of the line is proportional to the strength of the correlation. doi:10.1371/journal.pone.0052992.g(median 13, range 7?1) and 11.5 genera at Time point 2 (median 11, range 5?0). Lactobacillus was relatively rare in the macaques with only 2 of animals positive at the first time point and 9 at the later time. Analysis of the Lactobacillus 16S sequences indicated a close phylogenetic relationship to L. amylovorus and L. johnsonii (data not shown). Twenty-one macaques were analyzed at both time points so that temporal stability of the microbiota could be assessed (Figure 5). While the patterns of microbiota were in some cases very different between macaques, many of the macaques had similar microbiota patterns at the two time points. For example, animal 34656 and animal 31290 each had a distinct pattern of microbiota that was maintained over the two time points; in animal 34656 about 60 of the microbiota was comprised of a combination of Porphyromonas, Prevotella, Proteiniphilium, Mobiluncus and Catonella but lacked Sneathia; while about 60 of the microbiota in animal 31290 was composed of Porphyromonas and Sneathia but lacked Prevotella, Peptoniphilis, and Catonella. In contrast, microbiota in several of the animals was MedChemExpress Avasimibe clearly dissimilar between the two time points (e.g. 34766, 31726). Principal Coordinate Analysis was performed on the 21 sets of microbiota data with two time points to graphically display the similarities and differences in microbiota over time (Figure S1). This analysis showed striking stability in microbiota at the two times for some of the macaques (e.g. 36499, 33123, 32194), moderate to high stability in others (e.g. 34716, 32322) and.N 10 fold at Time point 1 and Time point 2 suggesting that the level of genital inflammation in an animal is relatively stable.The Diverse Vaginal Microbiome of RM is Relatively StableThe lower genital tract microbiota in female rhesus macaques was analyzed at both time points by Multitag pyrosequencing. At Time point 1 (March 2011), 29 macaques were analyzed and the eight most predominant genera were Porphyromonas, Prevotella, Sneathia, Proteiniphilum, Catonella, Campylobacter, Peptoniphilis and Mobiluncus (Table 1). Porphyromonas sequences were present in 93 of the macaques and on average comprised 17 15900046 of the sequences. Eight months later (November 2011), microbiome from 35 macaques was similarly analyzed. Porphyromonas sequences were again present in nearly all (97 ) of macaques and were on average the highest fraction of sequences (26 ). The other seven most predominant genera were all again present at similar levels except for Campylobacter. At both time points the microbiome was relatively diverse with an average of 13 genera at Time pointCervicovaginal Inflammation in Rhesus Macaquespotential associations between host gene mRNA levels and bacterial DNA levels using a Spearman’s correlation function there was a limited network of strong (.0.7) correlations between chemokines/cytokines and microbiota A) at time point 1; B) at time point 2. C) Intersection of strong correlations that existed at both Time 1 and Time 2. Blue circles, host gene mRNA levels, green circles host protein levels, pink circles bacterial DNA levels. The blue lines indicate a positive correlation between the parameters in the circles and the width of the line is proportional to the strength of the correlation. The red lines indicate a negative correlation between the parameters in the circles and the width of the line is proportional to the strength of the correlation. doi:10.1371/journal.pone.0052992.g(median 13, range 7?1) and 11.5 genera at Time point 2 (median 11, range 5?0). Lactobacillus was relatively rare in the macaques with only 2 of animals positive at the first time point and 9 at the later time. Analysis of the Lactobacillus 16S sequences indicated a close phylogenetic relationship to L. amylovorus and L. johnsonii (data not shown). Twenty-one macaques were analyzed at both time points so that temporal stability of the microbiota could be assessed (Figure 5). While the patterns of microbiota were in some cases very different between macaques, many of the macaques had similar microbiota patterns at the two time points. For example, animal 34656 and animal 31290 each had a distinct pattern of microbiota that was maintained over the two time points; in animal 34656 about 60 of the microbiota was comprised of a combination of Porphyromonas, Prevotella, Proteiniphilium, Mobiluncus and Catonella but lacked Sneathia; while about 60 of the microbiota in animal 31290 was composed of Porphyromonas and Sneathia but lacked Prevotella, Peptoniphilis, and Catonella. In contrast, microbiota in several of the animals was clearly dissimilar between the two time points (e.g. 34766, 31726). Principal Coordinate Analysis was performed on the 21 sets of microbiota data with two time points to graphically display the similarities and differences in microbiota over time (Figure S1). This analysis showed striking stability in microbiota at the two times for some of the macaques (e.g. 36499, 33123, 32194), moderate to high stability in others (e.g. 34716, 32322) and.