Successful enrichment and recovery of whole mitochondrial genomes from ancient human dental calculus

Ozga, Andrew T.; Nieves-Colón, María A.; Honap, Tanvi P.; Sankaranarayanan, Krithivasan; Hofman, Courtney A.; Milner, George R.; Lewis, Cecil M.; Stone, Anne C.; Warinner, Christina

doi:10.1002/ajpa.22960

Cited by 74 publications

(74 citation statements)

References 49 publications

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“…Target enrichment and Illumina sequencing. Targeted enrichment for the complete mtDNA genome was performed following (Maricic, et al 2010;Ozga, et al 2016). MtDNA enriched libraries were sequenced on multiple runs of the Illumina MiSeq.…”

Section: Methodsmentioning

confidence: 99%

Ancient DNA reconstructs the genetic legacies of pre-contact Puerto Rico communities

Nieves-Colón

Pestle

Reynolds³

et al. 2019

Preprint

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34Indigenous peoples have occupied the island of Puerto Rico since at least 3000 B.C. Due to the 35 demographic shifts that occurred after European contact, the origin(s) of these ancient populations, and 36 their genetic relationship to present-day islanders, are unclear. We use ancient DNA to characterize the 37 population history and genetic legacies of pre-contact Indigenous communities from Puerto Rico. Bone, 38 tooth and dental calculus samples were collected from 124 individuals from three pre-contact 39 archaeological sites: Tibes, Punta Candelero and Paso del Indio. Despite poor DNA preservation, we used 40 target enrichment and high-throughput sequencing to obtain complete mitochondrial genomes (mtDNA) 41 from 45 individuals and autosomal genotypes from two individuals. We found a high proportion of 42 Native American mtDNA haplogroups A2 and C1 in the pre-contact Puerto Rico sample (40% and 44%, 43 respectively). This distribution, as well as the haplotypes represented, support a primarily Amazonian 44 South American origin for these populations, and mirrors the Native American mtDNA diversity patterns 45 found in present-day islanders. Three mtDNA haplotypes from pre-contact Puerto Rico persist among 46 Puerto Ricans and other Caribbean islanders, indicating that present-day populations are reservoirs of pre-48 individuals from Puerto Rico and the Bahamas, suggesting a shared component of Indigenous Caribbean 49 ancestry with close affinity to South American populations. Our findings contribute to a more complete 50 reconstruction of pre-contact Caribbean population history and explore the role of Indigenous peoples in 51 shaping the biocultural diversity of present-day Puerto Ricans and other Caribbean islanders. 53Puerto Rico is the smallest of the Greater Antilles (Figure 1), the northernmost island grouping of the 55 Caribbean archipelago. The archaeological record of the island's prehistoric communities suggests a 56 dynamic population history with multiple peopling events, frequent migration, and expanding population 57 settlements (Rouse 1992; Rodríguez Ramos 2010). However, different lines of evidence produce 58 conflicting results about the origins and number of these migrations and the role of genetic admixture in

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Section: Methodsmentioning

confidence: 99%

Ancient DNA reconstructs the genetic legacies of pre-contact Puerto Rico communities

Nieves-Colón

Pestle

Reynolds³

et al. 2019

Preprint

Self Cite

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“…No further work or exploration has been done for mitochondrial m6dA analysis, which is completely an unexplored as well as an exciting field to embark on. Human mitochondrial DNA is smaller in size (16569 bp) in comparison to nuclear DNA (~3 x 10 9 bp), present in high copy number per cell (~10 3 -10 4 , nearly 10 copies is preset in each of the tens of hundreds of mitochondria per cell) (Lightowlers et al, 1997) and having intact and preserved DNA in double membranous structure, even in the dead and massively destroyed tissues (Barta et al, 2014;Higgins et al, 2015;Nesheva, 2015;Ozga et al, 2016;Schwarz et al, 2009), it has therefore clear advantages over nuclear DNA to be providentially recovered and easily manipulated from the questioned samples referred to the forensic laboratories.…”

Section: Discussionmentioning

confidence: 99%

Crime investigation through DNA methylation analysis: methods and applications in forensics

Rana¹

2018

Egypt J Forensic Sci

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Discerning monozygotic twins, precisely predicting the age of human beings and most importantly interpreting human behavior remains a big challenge in forensic science. Modern advances in the field of epigenetics especially analysis of DNA methylation pattern can certainly help to identify and discriminate various single-source DNA samples such as bodily fluids collected from the crime scene. In this review, cytosine methylation analysis of DNA has been methodologically discussed with a broad range of applications in forensic science such as identifying single or mixed body fluid, discriminating monozygotic twins, age prediction, addiction/behavioral prediction as well as race/ethnicity identification. With the advances of next-generation sequencing techniques, blooming of DNA methylation datasets and together with standard epigenetic protocols, the prospect of investigating and solving these critical issues in forensic science is highly promising in the court of law.

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“…In addition to microbial remains, dental calculus also entraps host cells and thus can serve as a source for host DNA 14,50 . In our samples, a median of 3.1% ± 11.1% (range 0.06-90.6%) of postprocessing reads mapped to their respective host genomes, with a median average coverage per site of 0.002X ± 0.02 (range 0.0001-0.4X) (Table S3).…”

Section: Host Dna Is Preserved In Dental Calculusmentioning

confidence: 99%

“…We were also able to recover complete mitochondrial genomes (>1X average coverage per site) for one gorilla, three reindeer and two bear samples. Mitochondrial genomes provide a rich source of information about the host evolutionary history, host population structure and changes in host population sizes over time 18,50 . With deeper metagenomics sequencing and/or employment of target capture techniques, the relatively high proportion of host reads allows for investigations into the importance of host genetic diversity and demography in shaping microbiome composition from the same dental calculus sample.…”

Section: Host Dna Is Preserved In Dental Calculusmentioning

confidence: 99%

A roadmap to mammalian oral microbiome evolution with dental calculus

Brealey

Leitão

Valk

et al. 2019

Preprint

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Animals and their associated microbiomes share a long evolutionary history, influenced by a complex interplay between extrinsic environmental and intrinsic host factors. However, we know little about microbiome responses to long-lasting environmental and host-centred processes, which require studying microbiome changes through time. Here, we apply a temporal metagenomics approach to dental calculus, the calcified oral microbial biofilm. We establish dental calculus as a valuable tool for the study of host microbiome evolution by characterising the taxonomic and functional composition of the oral microbiome in a variety of wild mammals. We detect oral pathogens in individuals with evidence of oral disease, assemble near-complete bacterial genomes from historical specimens, characterise antibiotic resistance genes even before the advent of industrial antibiotic production, reconstruct components of the host diet and recover host genetic profiles. Our work demonstrates how dental calculus can be used in the future to study the evolution of oral microbiomes and pathogens, and the impact of anthropogenic changes on wildlife and the environment.

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Successful enrichment and recovery of whole mitochondrial genomes from ancient human dental calculus

Cited by 74 publications

References 49 publications

Ancient DNA reconstructs the genetic legacies of pre-contact Puerto Rico communities

Ancient DNA reconstructs the genetic legacies of pre-contact Puerto Rico communities

Crime investigation through DNA methylation analysis: methods and applications in forensics

A roadmap to mammalian oral microbiome evolution with dental calculus

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