Litcius/Paper detail

Spatial proteomics of vesicular trafficking: coupling mass spectrometry and imaging approaches in membrane biology

Liang Zhang, Xinlin Liang, Tomáš Takáč, George Komis, Xiaojuan Li, Yuan Zhang, Miroslav Ovečka, Yanmei Chen, Jozef Šamaj

2022Plant Biotechnology Journal29 citationsDOIOpen Access PDF

Abstract

In plants, membrane compartmentalization requires vesicle trafficking for communication among distinct organelles. Membrane proteins involved in vesicle trafficking are highly dynamic and can respond rapidly to changes in the environment and to cellular signals. Capturing their localization and dynamics is thus essential for understanding the mechanisms underlying vesicular trafficking pathways. Quantitative mass spectrometry and imaging approaches allow a system-wide dissection of the vesicular proteome, the characterization of ligand-receptor pairs and the determination of secretory, endocytic, recycling and vacuolar trafficking pathways. In this review, we highlight major proteomics and imaging methods employed to determine the location, distribution and abundance of proteins within given trafficking routes. We focus in particular on methodologies for the elucidation of vesicle protein dynamics and interactions and their connections to downstream signalling outputs. Finally, we assess their biological applications in exploring different cellular and subcellular processes.

Topics & Concepts

BiologyEndocytic cycleVesicular transport proteinProteomeProteomicsCompartmentalization (fire protection)Cell biologyQuantitative proteomicsProtein subcellular localization predictionOrganelleVesicleTransport proteinComputational biologyProtein targetingMembrane proteinEndocytosisBiochemistryMembraneReceptorEnzymeGeneBiotin and Related StudiesCellular transport and secretionMolecular Junctions and Nanostructures