有孔小珠
等离子体
色谱法
化学
材料科学
物理
核物理学
复合材料
作者
Kathrin Korff,Johannes B. Mueller‐Reif,Dorothea Fichtl,Vincent Albrecht,Alicia-Sophie Schebesta,Ericka Corazon Mae Itang,Sabrina De Winter,Lesca M. Holdt,Daniel Teupser,Matthias Mann,Philipp E. Geyer
出处
期刊:
[Cold Spring Harbor Laboratory]
日期:2025-05-10
被引量:3
标识
DOI:10.1101/2025.05.07.652495
摘要
Bead-based enrichment has emerged as a promising strategy to improve depth in plasma proteomics by overcoming the dynamic range barrier. However, its robustness against pre-analytical variation has not been sufficiently characterized. Here, we systematically evaluate five plasma proteomics workflows, including three bead-based methods and two conventional protocols, using controlled spike-ins of low-abundance proteins and defined cellular contaminants. We find that bead-based approaches enhance detection of low-abundance proteins but can be highly susceptible to systematic bias from platelet and PBMC contamination, even at low levels. This can easily inflate results by thousands of proteins, likely accounting for some of the very high literature-reported numbers. In contrast, a perchloric acid-based workflow shows notable resistance to erythrocyte and platelet-derived interference. We further investigate how centrifugation conditions, anticoagulant choice, and buffer-bead combinations modulate contamination profiles and demonstrate that bias can be partially mitigated by optimized sample handling. In total, we identify more than 13,000 protein groups from various conditions, including cellular components from the circulating proteome. Our results provide a quantitative framework for assessing workflow performance under variable sample quality and offer guidance for both biomarker discovery and quality control in clinical proteomics studies.
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