Rapid Multi-Omics Sample Preparation for Mass Spectrometry.
Laura K MuehlbauerAnnie JenYunyun ZhuYuchen HeEvgenia ShishkovaKatherine A OvermyerJoshua J CoonPublished in: Analytical chemistry (2023)
Multi-omics analysis is a powerful and increasingly utilized approach to gain insight into complex biological systems. One major hindrance with multi-omics, however, is the lengthy and wasteful sample preparation process. Preparing samples for mass spectrometry (MS)-based multi-omics involves extraction of metabolites and lipids with organic solvents, precipitation of proteins, and overnight digestion of proteins. These existing workflows are disparate and laborious. Here, we present a simple, efficient, and unified approach to prepare lipids, metabolites, and proteins for MS analysis. Our approach, termed the Bead-enabled Accelerated Monophasic Multi-omics (BAMM) method, combines an n -butanol-based monophasic extraction with unmodified magnetic beads and accelerated protein digestion. We demonstrate that the BAMM method affords comparable depth, quantitative reproducibility, and recovery of biomolecules as state-of-the-art multi-omics methods (e.g., Matyash extraction and overnight protein digestion). However, the BAMM method only requires about 3 h to perform, which saves 11 steps and 19 h on average compared to published multi-omics methods. Furthermore, we validate the BAMM method for multiple sample types and formats (biofluid, culture plate, and pellet) and show that in all cases, it produces high biomolecular coverage and data quality.
Keyphrases
- mass spectrometry
- single cell
- ms ms
- multiple sclerosis
- high resolution
- healthcare
- systematic review
- randomized controlled trial
- molecularly imprinted
- machine learning
- small molecule
- deep learning
- high performance liquid chromatography
- gas chromatography
- amino acid
- artificial intelligence
- health insurance
- affordable care act