Characterization of Bacterial Community Dynamics of the Human Mouth Throughout Decomposition via Metagenomic, Metatranscriptomic, and Culturing Techniques.

The postmortem microbiome has recently moved to the forefront of forensic research, and many studies have focused on the idea that predictable fluctuations in decomposer communities could be used as a "microbial clock" to determine time of death. Commonly, the oral microbiome has been evaluated using 16S rRNA gene sequencing to assess the changes in community composition throughout decomposition. We sampled the hard palates of three human donors over time to identify the prominent members of the microbiome. This study combined 16S rRNA sequencing with whole metagenomic (MetaG) and metatranscriptomic (MetaT) sequencing and culturing methodologies in an attempt to broaden current knowledge about how these postmortem microbiota change and might function throughout decomposition. In all four methods, Proteobacteria, Firmicutes, Actinobacteria, and Bacteroidetes were the dominant phyla, but their distributions were insufficient in separating samples based on decomposition stage or time or by donor. Better resolution was observed at the level of genus, with fresher samples from decomposition clustering away from others via principal components analysis (PCA) of the sequencing data. Key genera in driving these trends included Rothia; Lysinibacillus, Lactobacillus, Staphylococcus, and other Firmicutes; and yeasts including Candida and Yarrowia. The majority of cultures (89%) matched to sequences obtained from at least one of the sequencing methods, while 11 cultures were found in the same samples using all three methods. These included Acinetobacter gerneri, Comamonas terrigena, Morganella morganii, Proteus vulgaris, Pseudomonas koreensis, Pseudomonas moraviensis, Raoutella terrigena, Stenotrophomonas maltophilia, Bacillus cereus, Kurthia zopfii, and Lactobacillus paracasei. MetaG and MetaT data also revealed many novel insects as likely visitors to the donors in this study, opening the door to investigating them as potential vectors of microorganisms during decomposition. The presence of cultures at specific time points in decomposition, including samples for which we have MetaT data, will yield future studies tying specific taxa to metabolic pathways involved in decomposition. Overall, we have shown that our 16S rRNA sequencing results from the human hard palate are consistent with other studies and have expanded on the range of taxa shown to be associated with human decomposition, including eukaryotes, based on additional sequencing technologies.

Comparison of polymerases used for amplification of mitochondrial DNA from challenging hairs and hairs of various treatments.

Forensic DNA analysis of hair evidence typically involves the amplification and sequencing of the control region (CR) of the mitochondrial genome (mtgenome). In compromised hair samples, such as shed hairs, the number of mtgenome copies could be low; thus, it is imperative that the polymerase used in PCR is efficient to ensure maximum amplification. Considering this, the first phase of this study compared the yields obtained from 12 polymerases (sourced from a range of commercial companies) when amplifying the CR, hypervariable (HV) region II (HV2), and hypervariable subregion II-B (HV2B). This initial assessment was performed using mitochondrial DNA (mtDNA) extracted from 2 cm of hair adjacent to the root from three donors of different self-reported ancestries and hair color/texture. PrimeSTAR HS and KAPA HiFi HotStart consistently generated significantly higher amplicon yields (p < 0.05, ~5-fold increase) for most regions than AmpliTaq Gold DNA polymerase (the polymerase validated for use in most forensic laboratories). The second phase of this project was focused on assessing the broad utility of these top two performing polymerases for amplifying two regions of the mtgenome (CR and HV2B) from hair samples representing diverse self-reported ancestral origins (European, Latin American, African American, Asian, and Native American), characteristics/treatments (bleached, dyed, and chemically straightened), and anatomical origins (e.g., head and pubic region) (n = 41). These regions were chosen as they are the most challenging to amplify and sequence in compromised hair samples due to length (i.e., the CR is ~1.2 kb) and repeat structure (i.e., the polycytosine stretch within HV2B). The results indicated that regardless of sample type, PrimeSTAR HS and KAPA HiFi HotStart polymerases outperformed (p < 0.05) AmpliTaq Gold DNA polymerase (averaging 11- and 8-fold increased yields, respectively). The results from this study highlight that enhanced commercially available polymerases appear to significantly improve the amplification of mtDNA from challenging hair samples.