A novel proteomic approach for the identification and relative quantification of disulfide-bridges in the human milk proteome

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Martin Nørmark Thesbjerg , Ulrik Kræmer Sundekilde , Nina Aagaard Poulsen , Lotte Bach Larsen , Søren Drud-Heydary Nielsen
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引用次数: 0

Abstract

This study explores the disulfide bridges present in the human milk proteome by a novel approach permitting both positional identification and relative quantification of the disulfide bridges. Human milk from six donors was subjected to trypsin digestion without reduction. The digested human milk proteins were analyzed by nanoLC-timsTOF Pro combined with data analysis using xiSEARCH. A total of 85 unique disulfide bridges were identified in 25 different human milk proteins. The total relative abundance of disulfide bridge-containing peptides constituted approximately 5% of the total amount of tryptic-peptides. Seven inter-molecular disulfide bridges were identified between either α-lactalbumin and lactotransferrin (5) or αS1-casein and κ-casein (2). All cysteines involved in the observed disulfide bridges of α-lactalbumin and lactotransferrin were mapped onto protein models using AlphaFold2 Multimer to estimate the length of the observed disulfide bridges. The lengths of the disulfide bridges of lactotransferrin indicate a potential for multi- or poly-merization of lactotransferrin. The high number of intramolecular lactotransferrin disulfide bridges identified, suggests that these are more heterogeneous than previously presumed.

Significance

Disulfide-bridges in the human milk proteome are an often overseen post-transaltional modification. Thus, mapping the disulfide-bridges, their positions and relative abundance, are valuable new knowledge needed for an improved understanding of human milk protein behaviour. Although glycosylation and phosphorylation have been described, even less information is available on the disulfide bridges and the disulfide-bridge derived protein complexes. This is important for future work in precision fermentation for recombinant production of human milk proteins, as this will highlight which disulfide-bridges are naturally occouring in human milk proteins. Further, this knowledge would be of value for the infant formula industry as it provides more information on how to humanize bovine-milk based infant formula. The novel method developed here can be broadly applied in other biological systems as the disulfid-brigdes are important for the structure and functionality of proteins.

Abstract Image

鉴定和相对量化母乳蛋白质组中二硫键的新型蛋白质组学方法。
本研究采用一种新方法探讨了母乳蛋白质组中存在的二硫桥,该方法允许对二硫桥进行定位识别和相对定量。对来自六位供体的母乳进行了胰蛋白酶消化,但未进行还原。消化后的母乳蛋白质通过 nanoLC-timsTOF Pro 进行分析,并使用 xiSEARCH 进行数据分析。在 25 种不同的母乳蛋白质中总共鉴定出 85 个独特的二硫桥。含二硫桥肽的总相对丰度约占胰蛋白酶肽总量的 5%。在α-乳白蛋白和乳铁蛋白(5)或αS1-酪蛋白和κ-酪蛋白(2)之间发现了七种分子间二硫桥。使用 AlphaFold2 Multimer 将观测到的α-乳白蛋白和乳铁蛋白二硫桥中涉及的所有半胱氨酸映射到蛋白质模型上,以估计观测到的二硫桥的长度。乳铁蛋白二硫桥的长度表明,乳铁蛋白有可能发生多重或多聚化。已发现的大量分子内乳铁蛋白二硫桥表明,这些二硫桥的异质性比以前推测的要高。意义:母乳蛋白质组中的二硫桥是一种经常被忽略的转运后修饰。因此,绘制二硫键及其位置和相对丰度图是提高对人乳蛋白质行为理解所需的宝贵新知识。虽然已经对糖基化和磷酸化进行了描述,但有关二硫桥和二硫桥衍生蛋白质复合物的信息却更少。这对未来重组生产人乳蛋白的精确发酵工作非常重要,因为这将突出人乳蛋白中自然存在的二硫桥。此外,这些知识对婴儿配方奶粉行业也很有价值,因为它为如何使以牛乳为基础的婴儿配方奶粉人性化提供了更多信息。由于二硫桥对蛋白质的结构和功能非常重要,因此本文开发的新方法可广泛应用于其他生物系统。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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