Advances in protein sequencing: Techniques, challenges and prospects

IF 11.8 1区化学 Q1 CHEMISTRY, ANALYTICAL

Trends in Analytical Chemistry Pub Date : 2025-06-12 DOI:10.1016/j.trac.2025.118341

Xiuer Luo , Cheuk Chi A. Ng , Henry Hei Ning Lam , Zhong-Ping Yao

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Abstract

Proteins are major building blocks of life, which are the principal undertakers of life activities. The protein components and distribution of a cell or an organ can give us lots of key information to understand the biological process in human life as well as diagnose diseases. Protein sequencing can determine individual proteins’ sequences, structures, and post-translational modifications, deliver detailed insights into protein-protein interactions and functions, which lead to advances such as characterization of disease biomarkers and personalized medicine, transforming our comprehension of complex biological systems. While conventional methods such as Edman degradation and mass spectrometry are being enhanced by integrating with other techniques, emerging sequencing approaches such as DNA point accumulation in nanoscale topology (DNA-PAINT), recognition tunneling and nanopore sequencing have advanced significantly, moving beyond the proof-of-concept stage and achieving notable progress recently. This review will examine these techniques, discuss the advancements and inherent challenges, such as sensitivity, sample complexity, and low abundance of protein sample, and propose some corresponding solutions. Finally, a forward-looking perspective on the future of protein sequencing, emphasizing the need for more sensitive and high-throughput methods, the integration of multi-omics data, the role of computational approaches, and the expansion of protein sequencing into new application domains will also be presented. This review will serve as a valuable resource for researchers and practitioners, guiding future developments and applications in protein sequencing.

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蛋白质测序的进展：技术、挑战和前景

蛋白质是生命的主要组成部分，是生命活动的主要承担者。一个细胞或器官的蛋白质组成和分布可以为我们了解人类生命的生物过程和诊断疾病提供许多关键信息。蛋白质测序可以确定单个蛋白质的序列、结构和翻译后修饰，提供蛋白质-蛋白质相互作用和功能的详细见解，从而导致疾病生物标志物表征和个性化医学等进步，改变我们对复杂生物系统的理解。虽然传统的测序方法，如Edman降解和质谱法正在通过与其他技术的整合而得到加强，但新兴的测序方法，如纳米尺度拓扑DNA点积累（DNA- paint）、识别隧道和纳米孔测序已经取得了显著进展，已经超越了概念验证阶段，并在最近取得了显著进展。本文将对这些技术进行综述，讨论这些技术的进步和固有的挑战，如灵敏度、样品复杂性和蛋白质样品的低丰度，并提出相应的解决方案。最后，展望了蛋白质测序的未来，强调了对更敏感和高通量方法的需求，多组学数据的整合，计算方法的作用，以及蛋白质测序扩展到新的应用领域。本文综述将为研究人员和从业者提供宝贵的资源，指导未来蛋白质测序的发展和应用。

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

Trends in Analytical Chemistry 化学-分析化学

CiteScore

20.00

自引率

4.60%

发文量

257

审稿时长

3.4 months

期刊介绍： TrAC publishes succinct and critical overviews of recent advancements in analytical chemistry, designed to assist analytical chemists and other users of analytical techniques. These reviews offer excellent, up-to-date, and timely coverage of various topics within analytical chemistry. Encompassing areas such as analytical instrumentation, biomedical analysis, biomolecular analysis, biosensors, chemical analysis, chemometrics, clinical chemistry, drug discovery, environmental analysis and monitoring, food analysis, forensic science, laboratory automation, materials science, metabolomics, pesticide-residue analysis, pharmaceutical analysis, proteomics, surface science, and water analysis and monitoring, these critical reviews provide comprehensive insights for practitioners in the field.