Litcius/Paper detail

Quantitative Proteomics Using Isobaric Labeling: A Practical Guide

Xiulan Chen, Yaping Sun, Tingting Zhang, Lian Shu, Peter Roepstorff, Fuquan Yang

2021Genomics Proteomics & Bioinformatics114 citationsDOIOpen Access PDF

Abstract

In the past decade, relative proteomic quantification using isobaric labeling technology has developed into a key tool for comparing the expression of proteins in biological samples. Although its multiplexing capacity and flexibility make this a valuable technology for addressing various biological questions, its quantitative accuracy and precision still pose significant challenges to the reliability of its quantification results. Here, we give a detailed overview of the different kinds of isobaric mass tags and the advantages and disadvantages of the isobaric labeling method. We also discuss which precautions should be taken at each step of the isobaric labeling workflow, to obtain reliable quantification results in large-scale quantitative proteomics experiments. In the last section, we discuss the broad applications of the isobaric labeling technology in biological and clinical studies, with an emphasis on thermal proteome profiling and proteogenomics.

Topics & Concepts

Isobaric processIsobaric labelingQuantitative proteomicsProteomeStable isotope labeling by amino acids in cell cultureFlexibility (engineering)Computer scienceTandem mass tagLabel-free quantificationProteomicsComputational biologyBiological materialsData miningQuantitative analysis (chemistry)MultiplexingQuantitative assessmentQuantitative biologyAnalytical techniqueTransferabilityBiochemical engineeringMass spectrometryChemistryProfiling (computer programming)Identification (biology)Advanced Proteomics Techniques and ApplicationsBiotin and Related StudiesAdvanced Biosensing Techniques and Applications
Quantitative Proteomics Using Isobaric Labeling: A Practical Guide | Litcius