Preservation of the metaproteome: variability of protein preservation in ancient dental calculus

Mackie, Meaghan; Hendy, Jessica; Lowe, Abigail; Sperduti, Alessandra; Holst, Malin; Collins, Matthew J.; Speller, Camilla

doi:10.1080/20548923.2017.1361629

Cited by 50 publications

(54 citation statements)

References 70 publications

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“…Proteins were successfully recovered from all 10 of the dental calculus samples analysed, with total protein identifications ranging from 15 to 128 (following quality filtering) ( Table S5). The identified proteins were assigned primarily to the human proteome and to microbial taxa commonly found within the oral microbiome, as well as to common contaminants identified in previous dental calculus proteomic analyses (principally trypsin, human keratins and human collagens) (Hendy et al 2018a;Mackie et al 2017;Warinner et al 2014b) (Fig. S1).…”

Section: Resultsmentioning

confidence: 99%

New insights into Neolithic milk consumption through proteomic analysis of dental calculus

Charlton

Ramsøe

Collins

et al. 2019

Archaeol Anthropol Sci

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There has long been debate over the origins of dairy consumption within European populations. Whilst it was previously assumed that lactase persistence (LP) was under positive selection following the advent of agriculture, recent genetic studies of prehistoric human remains have revealed LP may have only emerged in Europe in the last 4000 years. These findings stand in contrast to organic residue analysis of Neolithic pottery indicating the utilisation of dairy products, and zooarchaeological mortality profiles consistent with dairying herds at Neolithic sites. The recent discovery of the milk protein β-lactoglobulin (BLG) within human dental calculus presents a new method via which to explore dairy product consumption in the archaeological past. Here, we apply shotgun proteomic analysis to dental calculus samples from three British Neolithic sites, revealing the earliest identification of BLG in human dental calculus to date. The presence of BLG peptides in individuals who are unlikely to possess LP provides new insight into dairying in the British Neolithic, suggesting the potential processing of milk by Neolithic populations to reduce the lactose content of dairy products.

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Section: Resultsmentioning

confidence: 99%

New insights into Neolithic milk consumption through proteomic analysis of dental calculus

Charlton

Ramsøe

Collins

et al. 2019

Archaeol Anthropol Sci

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“…However, recent developments in high‐throughput, high‐resolution, mass spectrometry have led to greatly improved sensitivity and accuracy, which have now begun to be applied in the field of palaeopathology. For example, shotgun mass spectrometry has been used to identify highly antigenic proteins associated with bacteria such as gingipains in medieval human dental calculus, periodontic disease‐associated bacteria in Roman period dental calculus, establish the possible presence of Mycobacterium through buccal swabs of a 500‐year‐old Inca mummy, the possibility of infection in 360‐year‐old bone samples from Tokyo using a label‐free approach, and identification of proteins associated with tissue inflammation in skin samples of ≈4200‐year‐old mummies from Egypt . In the only other exploration of the endogenous dental paleoproteome to our knowledge, peptides associated with plague bacterium Yersinia pestis were able to be identified in 300‐year‐old dental pulp from a funeral site in France …”

Section: Introductionmentioning

confidence: 99%

Analysis of the Preserved Amino Acid Bias in Peptide Profiles of Iron Age Teeth from a Tropical Environment Enable Sexing of Individuals Using Amelogenin MRM

et al. 2019

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The first dental proteomic profile of Iron Age individuals (ca. 2000–1000 years B.P.), collected from the site of Long Long Rak rock shelter in northwest Thailand is described. A bias toward the preservation of the positively charged aromatic, and polar amino acids is observed. It is evident that the 212 proteins identified (2 peptide, FDR <1%) comprise a palimpsest of alterations that occurred both ante‐mortem and post‐mortem. Conservation of amino acids within the taphonomically resistant crystalline matrix enabled the identification of both X and Y chromosome linked amelogenin peptides. A novel multiple reaction monitoring method using the sex specific amelogenin protein isoforms is described and indicate the teeth are of male origin. Functional analysis shows an enrichment of pathways associated with metabolic disorders and shows a capacity for harboring these conditions prior to death. Stable isotope analysis using carbon isotopes highlights the strongly C3 based (≈80%) diet of the Long Long Rak cemetery people, which probably comprised rice combined with protein from freshwater fish among other food items. The combination of proteomics and stable isotope analysis provides a complementary strategy for assessing the demography, diet, lifestyle, and possible diseases experienced by ancient populations.

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“…Often calculus preserves microfossils (Arensburg, ; Hardy et al, ; Henry and Piperno, ; Henry, Brooks, & Piperno, ; Lalueza Fox et al, ; Lazzati et al, ; Li et al, ; Radini et al, ; Wesolowski, Ferraz Mendonça de Souza, Reinhard, & Ceccantini, ; Zhang et al, ), chemical elements (Poulson et al, ; Price, Keenleyside, & Schwarcz, ) and biomolecules (Warinner et al, ). More specific studies have identified the use of fire in enclosed environments by presence of micro‐charcoal inclusions (Hardy et al, ), source of drinking water (Dudgeon and Tromp, ), pathogenic microorganisms (Mackie et al, ; Preus, Marvik, Selvig, & Bennike, ; Warinner et al, ), medicinal plants (Hardy et al, ), processed food (Buckley, Usai, Jakob, Radini, & Hardy, ; Henry, Brooks, & Piperno, ; Warinner et al, ), use of tobacco (Eerkens et al, ) and mtDNA (Black, Kerr, Henebry‐DeLeon, & Lorenz, ). For plant fibers, Blatt, Redmond, Cassman, & Sciulli () report the presence of archaeobotanical material ( Gossypium sp.)…”

Section: Introductionmentioning

confidence: 99%

Tooth grooves, occlusal striations, dental calculus, and evidence for fiber processing in an Italian eneolithic/bronze age cemetery

Sperduti

Giuliani

Guida

et al. 2018

American J Phys Anthropol

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Preservation of the metaproteome: variability of protein preservation in ancient dental calculus

Cited by 50 publications

References 70 publications

New insights into Neolithic milk consumption through proteomic analysis of dental calculus

New insights into Neolithic milk consumption through proteomic analysis of dental calculus

Analysis of the Preserved Amino Acid Bias in Peptide Profiles of Iron Age Teeth from a Tropical Environment Enable Sexing of Individuals Using Amelogenin MRM

Tooth grooves, occlusal striations, dental calculus, and evidence for fiber processing in an Italian eneolithic/bronze age cemetery

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