Non-avian dinosaur eggshell calcite can contain ancient, endogenous amino acids

Saitta, Evan T.; Vinther, Jakob; Crisp, Molly K.; Abbott, Geoffrey D.; Wheeler, Lucy; Presslee, Samantha; Kaye, Thomas G.; Bull, Ian; Fletcher, Ian; Chen, Xinqi; Vidal, Daniel; Sanguino, Fernando; Buscalioni, Ángela D.; Calvo, Jorge; Sereno, Paul C.; Baumgart, Stephanie L.; Pittman, Michael; Collins, Matthew J.; Sakalauskaite, Jorune; Mackie, Meaghan; Bello, Federica Dal; Dickinson, Marc R.; Stevenson, Mark A.; Donohoe, Paul; Heck, Philipp R.; Demarchi, Beatrice; Penkman, Kirsty E.H.

doi:10.1016/j.gca.2023.11.016

Non-avian dinosaur eggshell calcite can contain ancient, endogenous amino acids

Saitta, Evan T.; Vinther, Jakob; Crisp, Molly K.; Abbott, Geoffrey D.; Wheeler, Lucy; Presslee, Samantha; Kaye, Thomas G.; Bull, Ian; Fletcher, Ian; Chen, Xinqi; Vidal, Daniel; Sanguino, Fernando; Buscalioni, Ángela D.; Calvo, Jorge; Sereno, Paul C.; Baumgart, Stephanie L.; Pittman, Michael; Collins, Matthew J.; Sakalauskaite, Jorune; Mackie, Meaghan; Bello, Federica Dal; Dickinson, Marc R.; Stevenson, Mark A.; Donohoe, Paul; Heck, Philipp R.; Demarchi, Beatrice; Penkman, Kirsty E.H.

Authors

Evan T. Saitta

Jakob Vinther

Molly K. Crisp

Geoffrey D. Abbott

Lucy Wheeler

Samantha Presslee

Thomas G. Kaye

Ian Bull

Ian Fletcher

Xinqi Chen

Daniel Vidal

Fernando Sanguino

Ángela D. Buscalioni

Jorge Calvo

Paul C. Sereno

Stephanie L. Baumgart

Michael Pittman

Matthew J. Collins

Jorune Sakalauskaite

Meaghan Mackie

Federica Dal Bello

Marc R. Dickinson

Dr Mark Stevenson mark.stevenson@durham.ac.uk
Post Doctoral Research Associate

Paul Donohoe

Philipp R. Heck

Beatrice Demarchi

Kirsty E.H. Penkman

Abstract

Proteins are the most stable of the macromolecules that carry genetic information over long periods of time. Closed systems are more likely to retain endogenous proteins or their degradation products. Amino acid racemisation data in experimental and subfossil material suggests that mollusc shell and avian eggshell calcite crystals can demonstrate closed system behaviour, retaining endogenous amino acids. Here, Late Cretaceous (Campanian–Maastrichtian) Argentine titanosaurian sauropod eggshells show dark, organic stains under light microscopy/photography and fluorescence imaging. Raman spectroscopy can yield bands consistent with various organic molecules, possibly including N-bearing molecules or geopolymers. Pyrolysis-gas chromatography-mass spectrometry reveals pyrolysates consistent with amino acids as well as aliphatic hydrocarbon homologues that are not present in modern eggshell, consistent with kerogen formation deriving from eggshell lipids. High-performance liquid chromatography reveals that their intra-crystalline fraction can be enriched in some of the most stable amino acids (Glx, Gly, Ala, and possibly Val) and are fully racemic (despite being some of the slowest racemising amino acids), indicating ancient origin. This preservation varies across localities, but similar ancient amino acid profiles were also observed in Late Cretaceous Spanish titanosaurians from several localities and Chinese putative hadrosaurid eggshell. These amino acid results are consistent with previous studies on degradation trends deduced from modern, thermally matured, sub-fossil, and ∼3.8–6.5 Ma avian eggshell, as well as ∼30 Ma calcitic mollusc opercula. Selective preservation of certain fully racemic amino acids, which do not racemise in-chain, and the concentration of free amino acids suggests likely complete hydrolysis of original peptides. Liquid chromatography-tandem mass spectrometry supports this hypothesis by failing to detect any non-contamination peptide sequences from the Mesozoic eggshell. These closed-system amino acids are possibly the most thoroughly supported non-avian dinosaur endogenous protein-derived constituents, at least those that have not undergone oxidative condensation with other classes of biomolecules. Biocrystal matrices can help preserve mobile organic molecules by trapping them (perhaps with the assistance of resistant organic polymers), but trapped organics are nevertheless prone to diagenetic degradation, even if such reactions might be slowed in exceptional circumstances. Future work should survey fossil biocalcite to determine variability in amino acid preservation.

Citation

Saitta, E. T., Vinther, J., Crisp, M. K., Abbott, G. D., Wheeler, L., Presslee, S., …Penkman, K. E. (2024). Non-avian dinosaur eggshell calcite can contain ancient, endogenous amino acids. Geochimica et Cosmochimica Acta, 365, 1-20. https://doi.org/10.1016/j.gca.2023.11.016

Journal Article Type	Article
Acceptance Date	Nov 20, 2023
Online Publication Date	Dec 7, 2023
Publication Date	Jan 15, 2024
Deposit Date	Dec 12, 2023
Publicly Available Date	Dec 12, 2023
Journal	Geochimica et Cosmochimica Acta
Print ISSN	0016-7037
Publisher	Meteoritical Society
Peer Reviewed	Peer Reviewed
Volume	365
Pages	1-20
DOI	https://doi.org/10.1016/j.gca.2023.11.016
Keywords	Geochemistry and Petrology
Public URL	https://durham-repository.worktribe.com/output/2023325