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Fysik & material 5.2

New technique maps thousands of proteins from single cells in minutes

Researchers have simplified protein analysis so dramatically that a single cell can now yield comprehensive protein data in a fraction of the time and cost of traditional methods. The breakthrough could accelerate drug discovery, diagnostics, and understanding of diseases like cancer and birth defects by making cell-level protein mapping accessible to far more labs.

Originaltitel: One-Tip enables comprehensive proteome coverage in minimal cells and single zygotes

Abstrakt

<p>Mass spectrometry (MS)-based proteomics workflows typically involve complex, multi-step processes, presenting challenges with sample losses, reproducibility, requiring substantial time and financial investments, and specialized skills. Here we introduce One-Tip, a proteomics methodology that seamlessly integrates efficient, one-pot sample preparation with precise, narrow-window data-independent acquisition (nDIA) analysis. One-Tip substantially simplifies sample processing, enabling the reproducible identification of &gt;9000 proteins from ~1000 HeLa cells. The versatility of One-Tip is highlighted by nDIA identification of ~6000 proteins in single cells from early mouse embryos. Additionally, the study incorporates the Uno Single Cell Dispenser™, demonstrating the capability of One-Tip in single-cell proteomics with &gt;3000 proteins identified per HeLa cell. We also extend One-Tip workflow to analysis of extracellular vesicles (EVs) extracted from blood plasma, demonstrating its high sensitivity by identifying &gt;3000 proteins from 16 ng EV preparation. One-Tip expands capabilities of proteomics, offering greater depth and throughput across a range of sample types.</p>

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