理解基于质谱的霰弹枪蛋白质组学数据的计算方法

IF 7 Q1 MATHEMATICAL & COMPUTATIONAL BIOLOGY

Annual Review of Biomedical Data Science Pub Date : 2018-07-20 DOI:10.1146/ANNUREV-BIODATASCI-080917-013516

Pavel Sinitcyn, J. Rudolph, J. Cox

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引用次数: 102

摘要

计算蛋白质组学是一门数据科学，涉及从高通量数据中识别和定量蛋白质，以及对其浓度变化、翻译后修饰、相互作用和亚细胞定位的生物学解释。如今，这些数据通常来源于基于质谱的鸟枪蛋白质组学实验。在这篇综述中，我们综述了分析此类蛋白质组学数据的计算方法，重点是对关键概念的解释。从质谱特征检测开始，我们介绍了肽的鉴定方法。随后，蛋白质推断和错误发现率的控制是非常重要的主题。然后我们讨论了肽和蛋白质的定量方法。下游数据分析部分涵盖探索性统计、网络分析、机器学习和多组学数据集成。最后，我们讨论了当前的发展，并对计算蛋白质组学在不久的将来可能产生的影响进行了展望。

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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Computational Methods for Understanding Mass Spectrometry–Based Shotgun Proteomics Data

Computational proteomics is the data science concerned with the identification and quantification of proteins from high-throughput data and the biological interpretation of their concentration changes, posttranslational modifications, interactions, and subcellular localizations. Today, these data most often originate from mass spectrometry–based shotgun proteomics experiments. In this review, we survey computational methods for the analysis of such proteomics data, focusing on the explanation of the key concepts. Starting with mass spectrometric feature detection, we then cover methods for the identification of peptides. Subsequently, protein inference and the control of false discovery rates are highly important topics covered. We then discuss methods for the quantification of peptides and proteins. A section on downstream data analysis covers exploratory statistics, network analysis, machine learning, and multiomics data integration. Finally, we discuss current developments and provide an outlook on what the near future of computational proteomics might bear.

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来源期刊

Annual Review of Biomedical Data Science

CiteScore

11.10

自引率

1.70%

发文量

期刊介绍： The Annual Review of Biomedical Data Science provides comprehensive expert reviews in biomedical data science, focusing on advanced methods to store, retrieve, analyze, and organize biomedical data and knowledge. The scope of the journal encompasses informatics, computational, artificial intelligence (AI), and statistical approaches to biomedical data, including the sub-fields of bioinformatics, computational biology, biomedical informatics, clinical and clinical research informatics, biostatistics, and imaging informatics. The mission of the journal is to identify both emerging and established areas of biomedical data science, and the leaders in these fields.