The Survival of β-lactoglobulin Peptides in the Archaeological Record: Vulnerability vs. Sequence Variation

Beatriz Fonseca, Colin L. Freeman, Matthew James Collins
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Abstract

It is a strange observation, given the cultural co-evolution of dairying, that milk proteins are more commonly reported than any other food proteins in the archaeological record. The whey protein β-lactoglobulin and in particular its eleven amino acid long peptide T125PEVDXEALEK135 seems to be preferentially preserved in both ceramic vessels and teeth (dental calculus). An amino acid substitution in the middle of the chain is valuable to track livestock management because it permits differentiation between key animal species used in dairying. The persistence of this peptide is, however, unusual as its acidic nature makes it more vulnerable to hydrolysis. Moreover, selection for the ability to digest raw milk - more specifically, the continued production of the milk sugar enzyme lactase beyond the age of normal weaning - did not begin until the early Bronze Age. It is therefore unclear why it is a milk peptide, in particular a peptide associated with the lactose-rich whey fraction, that is one of the most commonly recovered dietary peptides. The unexpected preservation of T125PEVDXEALEK135 thus presents a good case study to uncover patterns of protein survival in the archaeological record. We have previously explored the dynamics of the bovine variation of the peptide (X=Asp130) and its likelihood to undergo hydrolysis in solution. In this study, we turn our attention to the ovine (X=Asn130) and the caprine (X=Lys130) variations of the β-lactoglobulin peptide to determine how the mutation in the amino acid in position 6 affects peptide conformations and vulnerability in bulk water. To do this, we use Molecular Dynamics as implemented in GROMACS 2020, with the Amber14SB forcefield and the SPC/E water model. We first perform extensive conformational analysis of both peptides in solution to determine stable structures. Then, using analogous methodology to that developed in our earlier study of the bovine peptide, we identify geometric arrangements between water and peptide that may be more prone to hydrolysis.
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考古记录中β-乳球蛋白肽的存活:易变性与序列变异
鉴于乳制品文化的共同发展,牛奶蛋白在考古记录中比其他食物蛋白更常见,这是一个奇怪的现象。乳清蛋白 β-乳球蛋白,特别是其 11 个氨基酸长肽 T125PEVDXEALEK135 似乎更容易保存在陶器和牙齿(牙结石)中。肽链中间的氨基酸替代对于跟踪牲畜管理非常有价值,因为它可以区分乳业中使用的主要动物种类。不过,这种肽的持久性并不寻常,因为它的酸性使其更容易被水解。此外,直到青铜时代早期,人们才开始选择消化生奶的能力--更具体地说,就是在正常断奶年龄之后继续生产乳糖酶。因此,目前还不清楚为什么牛奶肽,特别是与富含乳糖的乳清部分相关的肽,会成为最常见的膳食肽之一。因此,T125PEVDXEALEK135 的意外保存为揭示考古记录中蛋白质的生存模式提供了一个很好的案例研究。我们之前探讨了该肽的牛变体(X=Asp130)的动态及其在溶液中发生水解的可能性。在本研究中,我们将注意力转向了β-乳球蛋白肽的绵羊变体(X=Asn130)和山羊变体(X=Lys130),以确定第 6 位氨基酸的突变如何影响肽的构象以及在大量水中的易损性。为此,我们使用 GROMACS 2020 中实现的分子动力学、Amber14SB 力场和 SPC/E 水模型。我们首先在溶液中对两种肽进行大量构象分析,以确定稳定的结构。然后,我们使用与早先研究牛肽时类似的方法,确定了水和肽之间可能更容易发生水解的几何排列。
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