A conscious rethink: Why is brain tissue commonly preserved in the archaeological record? Commentary on: Petrone P, Pucci P, Niola M, et al. Heat-induced brain vitrification from the Vesuvius eruption in C.E. 79. N Engl J Med 2020;382:383-4. DOI: 10.1056/NEJMc1909867

Alexandra L. Morton-Hayward, T. Thompson, J. Thomas-Oates, S. Buckley, A. Petzold, Abigail Ramsøe, S. O’Connor, M. Collins
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引用次数: 3

Abstract

ABSTRACT Brain tissue is ubiquitous in the archaeological record. Multiple, independent studies report the finding of black, resinous or shiny brain tissue, and Petrone et al. [2020 “Heat-induced Brain Vitrification from the Vesuvius Eruption in C.E. 79.” N Engl J Med. 382: 383–384; doi:10.1056/NEJMc1909867] raise the intriguing prospect of a role for vitrification in the preservation of ancient biomolecules. However, Petrone et al. (2020) have not made their raw data available, and no detailed laboratory or analytical methodology is offered. Issues of contamination and misinterpretation hampered a decade of research in biomolecular archaeology, such that addressing these sources of bias and facilitating validation of specious findings has become both routine and of paramount importance in the discipline. We argue that the evidence they present does not support their conclusion of heat-induced vitrification of human brain tissue, and that future studies should share palaeoproteomic data in an open access repository to facilitate comparative analysis of the recovery of ancient proteins and patterns of their degradation. GRAPHICAL ABSTRACT
一个有意识的反思:为什么脑组织通常被保存在考古记录中?评论:Petrone P, Pucci P, Niola M,等。公元79年维苏威火山喷发的热致脑玻璃化。中国生物医学工程杂志(英文版);2009;32(3):391 - 391。DOI: 10.1056 / NEJMc1909867
脑组织在考古记录中无处不在。多项独立研究报告发现了黑色、树脂状或有光泽的脑组织,Petrone等人[2020年]“公元79年维苏威火山喷发引起的热诱导脑玻璃化”。中华医学杂志,2016,31 (2):383-384;[doi:10.1056/NEJMc1909867]提出了玻璃化在保存古代生物分子中的作用的有趣前景。然而,Petrone等人(2020)没有提供他们的原始数据,也没有提供详细的实验室或分析方法。污染和误解的问题阻碍了生物分子考古学十年的研究,因此,解决这些偏见的来源和促进似是而非的发现的验证已经成为常规和最重要的学科。我们认为,他们提出的证据并不支持他们热诱导的人类脑组织玻璃化的结论,未来的研究应该在一个开放的存储库中共享古蛋白质组学数据,以促进对古代蛋白质的恢复及其降解模式的比较分析。图形抽象
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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