Automated high-throughput biological sex identification from archaeological human dental enamel using targeted proteomics

Koenig, Claire; Bortel, Patricia; Paterson, Ryan S.; Rendl, Barbara; Madupe, Palesa P.; Troché, Gaudry B.; Hermann, Nuno Vibe; Martínez de Pinillos, Marina; Martinón-Torres, María; Mularczyk, Sandra; Jørkov, Marie Louise Schjellerup; Gerner, Christopher; Kanz, Fabian; Martinez-Val, Ana; Cappellini, Enrico; Olsen, Jesper V.

doi:10.1101/2024.02.20.581140

2024

DOI: 10.1101/2024.02.20.581140

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Automated high-throughput biological sex identification from archaeological human dental enamel using targeted proteomics

Claire Koenig,

Patricia Bortel,

Ryan S. Paterson

et al.

Abstract: Biological sex is key information for archaeological and forensic studies, which can be determined by proteomics. However, lack of a standardised approach for fast and accurate sex identification currently limits the reach of proteomics applications. Here, we introduce a streamlined mass spectrometry (MS)-based workflow for determination of biological sex using human dental enamel. Our approach builds on a minimally invasive sampling strategy by acid etching, a rapid online liquid chromatography (LC) gradient … Show more

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Cited by 2 publications

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Bison sex matters: the potential of proteomic tooth enamel analysis for determination of ancient human subsistence strategies

Berezina,

Ziganshin,

Kolobova

et al. 2024

Archaeol Anthropol Sci

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Bison sex matters: the potential of proteomic tooth enamel analysis for determination of ancient human subsistence strategies

Berezina,

Ziganshin,

Kolobova

et al. 2024

Archaeol Anthropol Sci

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A label-free quantification method for assessing sex from modern and ancient bovine tooth enamel

Kotli,

Morgenstern,

Bocquentin

et al. 2024

Sci Rep

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Identification of the sex of modern, fossil and archaeological animal remains offers many insights into their demography, mortality profiles and domestication pathways. However, due to many-factors, sex determination of osteological remains is often problematic. To overcome this, we have developed an innovative protocol to determine an animal’s sex from tooth enamel, by applying label-free quantification (LFQ) of two unique AmelY peptides ‘LRYPYP’ (AmelY;[M+2]$$^{2+}$$ 2 + 404.7212 m/z) and ‘LRYPYPSY’ (AmelY;[M+2]$$^{2+}$$ 2 + 529.7689 m/z) that are only present in the enamel of males. We applied this method to eight modern cattle (Bos taurus) of known sex, and correctly assigned them to sex. We then applied the same protocol to twelve archaeological Bos teeth from the Neolithic site of Beisamoun, Israel (8-th–7-th millennium BC) and determined the sex of the archaeological samples. Since teeth are usually better preserved than bones, this innovative protocol has potential to facilitate sex determination in ancient and modern bovine remains that currently cannot be sexed.

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Automated high-throughput biological sex identification from archaeological human dental enamel using targeted proteomics

Cited by 2 publications

References 58 publications

Bison sex matters: the potential of proteomic tooth enamel analysis for determination of ancient human subsistence strategies

Bison sex matters: the potential of proteomic tooth enamel analysis for determination of ancient human subsistence strategies

A label-free quantification method for assessing sex from modern and ancient bovine tooth enamel

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