Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone

The invention and development of next or second generation sequencing methods has resulted in a dramatic transformation of ancient DNA research and allowed shotgun sequencing of entire genomes from fossil specimens. However, although there are exceptions, most fossil specimens contain only low (~ 1%...

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Autores principales: Pinhasi, Ron, Fernandes, Daniel, Sirak, Kendra, Novak, Mario, Connell, Sarah, Alpaslan-Roodenberg, Songül, Gerritsen, Fokke, Moiseyev, Vyacheslav, Gromov, Andrey, Raczky, Pál, Anders, Alexandra, Pietrusewsky, Michael, Rollefson, Gary, Jovanovic, Marija, Trinhhoang, Hiep, Bar-Oz, Guy, Oxenham, Marc, Matsumura, Hirofumi, Hofreiter, Michael
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4472748/
https://www.ncbi.nlm.nih.gov/pubmed/26086078
http://dx.doi.org/10.1371/journal.pone.0129102
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author Pinhasi, Ron
Fernandes, Daniel
Sirak, Kendra
Novak, Mario
Connell, Sarah
Alpaslan-Roodenberg, Songül
Gerritsen, Fokke
Moiseyev, Vyacheslav
Gromov, Andrey
Raczky, Pál
Anders, Alexandra
Pietrusewsky, Michael
Rollefson, Gary
Jovanovic, Marija
Trinhhoang, Hiep
Bar-Oz, Guy
Oxenham, Marc
Matsumura, Hirofumi
Hofreiter, Michael
author_facet Pinhasi, Ron
Fernandes, Daniel
Sirak, Kendra
Novak, Mario
Connell, Sarah
Alpaslan-Roodenberg, Songül
Gerritsen, Fokke
Moiseyev, Vyacheslav
Gromov, Andrey
Raczky, Pál
Anders, Alexandra
Pietrusewsky, Michael
Rollefson, Gary
Jovanovic, Marija
Trinhhoang, Hiep
Bar-Oz, Guy
Oxenham, Marc
Matsumura, Hirofumi
Hofreiter, Michael
author_sort Pinhasi, Ron
collection PubMed
description The invention and development of next or second generation sequencing methods has resulted in a dramatic transformation of ancient DNA research and allowed shotgun sequencing of entire genomes from fossil specimens. However, although there are exceptions, most fossil specimens contain only low (~ 1% or less) percentages of endogenous DNA. The only skeletal element for which a systematically higher endogenous DNA content compared to other skeletal elements has been shown is the petrous part of the temporal bone. In this study we investigate whether (a) different parts of the petrous bone of archaeological human specimens give different percentages of endogenous DNA yields, (b) there are significant differences in average DNA read lengths, damage patterns and total DNA concentration, and (c) it is possible to obtain endogenous ancient DNA from petrous bones from hot environments. We carried out intra-petrous comparisons for ten petrous bones from specimens from Holocene archaeological contexts across Eurasia dated between 10,000-1,800 calibrated years before present (cal. BP). We obtained shotgun DNA sequences from three distinct areas within the petrous: a spongy part of trabecular bone (part A), the dense part of cortical bone encircling the osseous inner ear, or otic capsule (part B), and the dense part within the otic capsule (part C). Our results confirm that dense bone parts of the petrous bone can provide high endogenous aDNA yields and indicate that endogenous DNA fractions for part C can exceed those obtained for part B by up to 65-fold and those from part A by up to 177-fold, while total endogenous DNA concentrations are up to 126-fold and 109-fold higher for these comparisons. Our results also show that while endogenous yields from part C were lower than 1% for samples from hot (both arid and humid) parts, the DNA damage patterns indicate that at least some of the reads originate from ancient DNA molecules, potentially enabling ancient DNA analyses of samples from hot regions that are otherwise not amenable to ancient DNA analyses.
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spelling pubmed-44727482015-06-29 Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone Pinhasi, Ron Fernandes, Daniel Sirak, Kendra Novak, Mario Connell, Sarah Alpaslan-Roodenberg, Songül Gerritsen, Fokke Moiseyev, Vyacheslav Gromov, Andrey Raczky, Pál Anders, Alexandra Pietrusewsky, Michael Rollefson, Gary Jovanovic, Marija Trinhhoang, Hiep Bar-Oz, Guy Oxenham, Marc Matsumura, Hirofumi Hofreiter, Michael PLoS One Research Article The invention and development of next or second generation sequencing methods has resulted in a dramatic transformation of ancient DNA research and allowed shotgun sequencing of entire genomes from fossil specimens. However, although there are exceptions, most fossil specimens contain only low (~ 1% or less) percentages of endogenous DNA. The only skeletal element for which a systematically higher endogenous DNA content compared to other skeletal elements has been shown is the petrous part of the temporal bone. In this study we investigate whether (a) different parts of the petrous bone of archaeological human specimens give different percentages of endogenous DNA yields, (b) there are significant differences in average DNA read lengths, damage patterns and total DNA concentration, and (c) it is possible to obtain endogenous ancient DNA from petrous bones from hot environments. We carried out intra-petrous comparisons for ten petrous bones from specimens from Holocene archaeological contexts across Eurasia dated between 10,000-1,800 calibrated years before present (cal. BP). We obtained shotgun DNA sequences from three distinct areas within the petrous: a spongy part of trabecular bone (part A), the dense part of cortical bone encircling the osseous inner ear, or otic capsule (part B), and the dense part within the otic capsule (part C). Our results confirm that dense bone parts of the petrous bone can provide high endogenous aDNA yields and indicate that endogenous DNA fractions for part C can exceed those obtained for part B by up to 65-fold and those from part A by up to 177-fold, while total endogenous DNA concentrations are up to 126-fold and 109-fold higher for these comparisons. Our results also show that while endogenous yields from part C were lower than 1% for samples from hot (both arid and humid) parts, the DNA damage patterns indicate that at least some of the reads originate from ancient DNA molecules, potentially enabling ancient DNA analyses of samples from hot regions that are otherwise not amenable to ancient DNA analyses. Public Library of Science 2015-06-18 /pmc/articles/PMC4472748/ /pubmed/26086078 http://dx.doi.org/10.1371/journal.pone.0129102 Text en © 2015 Pinhasi et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Pinhasi, Ron
Fernandes, Daniel
Sirak, Kendra
Novak, Mario
Connell, Sarah
Alpaslan-Roodenberg, Songül
Gerritsen, Fokke
Moiseyev, Vyacheslav
Gromov, Andrey
Raczky, Pál
Anders, Alexandra
Pietrusewsky, Michael
Rollefson, Gary
Jovanovic, Marija
Trinhhoang, Hiep
Bar-Oz, Guy
Oxenham, Marc
Matsumura, Hirofumi
Hofreiter, Michael
Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone
title Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone
title_full Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone
title_fullStr Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone
title_full_unstemmed Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone
title_short Optimal Ancient DNA Yields from the Inner Ear Part of the Human Petrous Bone
title_sort optimal ancient dna yields from the inner ear part of the human petrous bone
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4472748/
https://www.ncbi.nlm.nih.gov/pubmed/26086078
http://dx.doi.org/10.1371/journal.pone.0129102
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