Litcius/Paper detail

Robust and Easy-to-Use One-Pot Workflow for Label-Free Single-Cell Proteomics

Manuel Matzinger, Elisabeth Müller, Gerhard Dürnberger, Peter Pichler, Karl Mechtler

2023Analytical Chemistry127 citationsDOIOpen Access PDF

Abstract

The analysis of ultralow input samples or even individual cells is essential to answering a multitude of biomedical questions, but current proteomic workflows are limited in their sensitivity and reproducibility. Here, we report a comprehensive workflow that includes improved strategies for all steps, from cell lysis to data analysis. Thanks to convenient-to-handle 1 μL sample volume and standardized 384-well plates, the workflow is easy for even novice users to implement. At the same time, it can be performed semi-automatized using CellenONE, which allows for the highest reproducibility. To achieve high throughput, ultrashort gradient lengths down to 5 min were tested using advanced μ-pillar columns. Data-dependent acquisition (DDA), wide-window acquisition (WWA), data-independent acquisition (DIA), and commonly used advanced data analysis algorithms were benchmarked. Using DDA, 1790 proteins covering a dynamic range of four orders of magnitude were identified in a single cell. Using DIA, proteome coverage increased to more than 2200 proteins identified from single-cell level input in a 20 min active gradient. The workflow enabled differentiation of two cell lines, demonstrating its suitability to cellular heterogeneity determination.

Topics & Concepts

WorkflowReproducibilityChemistryProteomeProteomicsData acquisitionThroughputLysisComputer scienceData miningBiological systemChromatographyDatabaseBiochemistryTelecommunicationsGeneBiologyOperating systemWirelessAdvanced Proteomics Techniques and ApplicationsSingle-cell and spatial transcriptomicsCell Image Analysis Techniques