利用衍生蛋白质特征的增强值乘积预测粘蛋白型 O-糖基化。

IF 2.4 Q3 Computer Science
Jonathon E Mohl, Thomas Gerken, Ming-Ying Leung
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引用次数: 0

摘要

粘蛋白型 O-糖基化是蛋白质最常见的翻译后修饰之一。这种糖基化是在高尔基体中由多肽 GalNAc 转移酶家族将糖 N-乙酰半乳糖胺(GalNAc)添加到蛋白质的 Ser 和 Thr 残基上而开始的。人体内有 20 种同工酶,它们在不同组织中表达不同,发挥着多种重要的生物学作用。利用随机肽底物,可以获得增强值(EV)形式的同工酶特异性氨基酸偏好。以前,仅凭这些 EV 就能通过基于网络的 ISOGlyP(同种型特异性 O-糖基化预测)工具预测 O-糖基化位点。在这里,我们探索了其他蛋白质特征,以确定这些特征是否能补充随机肽衍生的增强值,并提高 ISOGlyP 的预测能力。在使用三个不同的已发表的体内 O 型糖蛋白组学数据集进行测试时,我们发现加入额外的蛋白质底物特征(如二级结构和表面可及性)可以提高灵敏度,而特异性损失最小,从而提高了 ISOGlyP 预测的整体准确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Predicting mucin-type O-Glycosylation using enhancement value products from derived protein features.

Mucin-type O-glycosylation is one of the most common post-translational modifications of proteins. This glycosylation is initiated in the Golgi by the addition of the sugar N-acetylgalactosamine (GalNAc) onto protein Ser and Thr residues by a family of polypeptide GalNAc transferases. In humans there are 20 isoforms that are differentially expressed across tissues that serve multiple important biological roles. Using random peptide substrates, isoform specific amino acid preferences have been obtained in the form of enhancement values (EV). These EVs alone have previously been used to predict O-glycosylation sites via the web based ISOGlyP (Isoform Specific O-Glycosylation Prediction) tool. Here we explore additional protein features to determine whether these can complement the random peptide derived enhancement values and increase the predictive power of ISOGlyP. The inclusion of additional protein substrate features (such as secondary structure and surface accessibility) was found to increase sensitivity with minimal loss of specificity, when tested with three different published in vivo O-glycoproteomics data sets, thus increasing the overall accuracy of the ISOGlyP predictions.

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来源期刊
CiteScore
1.70
自引率
0.00%
发文量
0
审稿时长
3 months
期刊介绍: The Journal of Theoretical and Computational Chemistry (JTCC) is an international interdisciplinary journal aimed at providing comprehensive coverage on the latest developments and applications of research in the ever-expanding field of theoretical and computational chemistry. JTCC publishes regular articles and reviews on new methodology, software, web server and database developments. The applications of existing theoretical and computational methods which produce significant new insights into important problems are also welcomed. Papers reporting joint computational and experimental investigations are encouraged. The journal will not consider manuscripts reporting straightforward calculations of the properties of molecules with existing software packages without addressing a significant scientific problem. Areas covered by the journal include molecular dynamics, computer-aided molecular design, modeling effects of mutation on stability and dynamics of macromolecules, quantum mechanics, statistical mechanics and other related topics.
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