Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.

Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.

BACKGROUND: The classification of ancient animal corpses at the species level remains a challenging task for forensic scientists and anthropologists. Severe damage and mixed, tiny pieces originating from several skeletons may render morphological classification virtually impossible. Standard approac...

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Main Authors: Thi-Nguyen-Ny Tran, Gérard Aboudharam, Armelle Gardeisen, Bernard Davoust, Jean-Pierre Bocquet-Appel, Christophe Flaudrops, Maya Belghazi, Didier Raoult, Michel Drancourt
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3045434?pdf=render
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spelling doaj-5a6f364d56ad4e6fbabaa29bff101b762020-11-25T01:46:18ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-0162e1731910.1371/journal.pone.0017319Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.Thi-Nguyen-Ny TranGérard AboudharamArmelle GardeisenBernard DavoustJean-Pierre Bocquet-AppelChristophe FlaudropsMaya BelghaziDidier RaoultMichel DrancourtBACKGROUND: The classification of ancient animal corpses at the species level remains a challenging task for forensic scientists and anthropologists. Severe damage and mixed, tiny pieces originating from several skeletons may render morphological classification virtually impossible. Standard approaches are based on sequencing mitochondrial and nuclear targets. METHODOLOGY/PRINCIPAL FINDINGS: We present a method that can accurately classify mammalian species using dental pulp and mass spectrometry peptide profiling. Our work was organized into three successive steps. First, after extracting proteins from the dental pulp collected from 37 modern individuals representing 13 mammalian species, trypsin-digested peptides were used for matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis. The resulting peptide profiles accurately classified every individual at the species level in agreement with parallel cytochrome b gene sequencing gold standard. Second, using a 279-modern spectrum database, we blindly classified 33 of 37 teeth collected in 37 modern individuals (89.1%). Third, we classified 10 of 18 teeth (56%) collected in 15 ancient individuals representing five mammal species including human, from five burial sites dating back 8,500 years. Further comparison with an upgraded database comprising ancient specimen profiles yielded 100% classification in ancient teeth. Peptide sequencing yield 4 and 16 different non-keratin proteins including collagen (alpha-1 type I and alpha-2 type I) in human ancient and modern dental pulp, respectively. CONCLUSIONS/SIGNIFICANCE: Mass spectrometry peptide profiling of the dental pulp is a new approach that can be added to the arsenal of species classification tools for forensics and anthropology as a complementary method to DNA sequencing. The dental pulp is a new source for collagen and other proteins for the species classification of modern and ancient mammal individuals.http://europepmc.org/articles/PMC3045434?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Thi-Nguyen-Ny Tran
Gérard Aboudharam
Armelle Gardeisen
Bernard Davoust
Jean-Pierre Bocquet-Appel
Christophe Flaudrops
Maya Belghazi
Didier Raoult
Michel Drancourt
spellingShingle Thi-Nguyen-Ny Tran
Gérard Aboudharam
Armelle Gardeisen
Bernard Davoust
Jean-Pierre Bocquet-Appel
Christophe Flaudrops
Maya Belghazi
Didier Raoult
Michel Drancourt
Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.
PLoS ONE
author_facet Thi-Nguyen-Ny Tran
Gérard Aboudharam
Armelle Gardeisen
Bernard Davoust
Jean-Pierre Bocquet-Appel
Christophe Flaudrops
Maya Belghazi
Didier Raoult
Michel Drancourt
author_sort Thi-Nguyen-Ny Tran
title Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.
title_short Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.
title_full Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.
title_fullStr Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.
title_full_unstemmed Classification of ancient mammal individuals using dental pulp MALDI-TOF MS peptide profiling.
title_sort classification of ancient mammal individuals using dental pulp maldi-tof ms peptide profiling.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description BACKGROUND: The classification of ancient animal corpses at the species level remains a challenging task for forensic scientists and anthropologists. Severe damage and mixed, tiny pieces originating from several skeletons may render morphological classification virtually impossible. Standard approaches are based on sequencing mitochondrial and nuclear targets. METHODOLOGY/PRINCIPAL FINDINGS: We present a method that can accurately classify mammalian species using dental pulp and mass spectrometry peptide profiling. Our work was organized into three successive steps. First, after extracting proteins from the dental pulp collected from 37 modern individuals representing 13 mammalian species, trypsin-digested peptides were used for matrix-assisted laser desorption/ionization time-of-flight mass spectrometry analysis. The resulting peptide profiles accurately classified every individual at the species level in agreement with parallel cytochrome b gene sequencing gold standard. Second, using a 279-modern spectrum database, we blindly classified 33 of 37 teeth collected in 37 modern individuals (89.1%). Third, we classified 10 of 18 teeth (56%) collected in 15 ancient individuals representing five mammal species including human, from five burial sites dating back 8,500 years. Further comparison with an upgraded database comprising ancient specimen profiles yielded 100% classification in ancient teeth. Peptide sequencing yield 4 and 16 different non-keratin proteins including collagen (alpha-1 type I and alpha-2 type I) in human ancient and modern dental pulp, respectively. CONCLUSIONS/SIGNIFICANCE: Mass spectrometry peptide profiling of the dental pulp is a new approach that can be added to the arsenal of species classification tools for forensics and anthropology as a complementary method to DNA sequencing. The dental pulp is a new source for collagen and other proteins for the species classification of modern and ancient mammal individuals.
url http://europepmc.org/articles/PMC3045434?pdf=render
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