Pharmaceutical Sciences Faculty Publications
An Investigation into the Human Serum “Interactome”
Document Type
Article
Publication Date
5-2004
Journal Title
Electrophoresis
Volume
25
Issue
9
First Page
1289
Last Page
1298
DOI
10.1002/ELPS.200405866
Abstract
The protein content of human serum is composed of a millieu of proteins from almost every type of cell and tissue within the body. The serum proteome has been shown to contain information that directly reflects pathophysiological states and represents an invaluable source of diagnostic information for a variety of different diseases. Unfortunately, the dynamic range of protein abundance, ranging from ≫ mg/mL level to ≪ pg/mL level, renders complete characterization of this proteome nearly impossible with current analytical methods. To study low‐abundance proteins, which have potential value for clinical diagnosis, the high‐abundant species, such as immunoglobulins and albumin, are generally eliminated as the first step in many analytical protocols. This step, however, is hypothesized to concomitantly remove proteins/peptides associated with the high‐abundant proteins targeted for depletion. In this study, immunoprecipitation was combined with microcapillary reversed‐phase liquid chromatography (μRPLC) coupled on‐line with tandem mass spectrometry (MS/MS) to investigate the low‐molecular‐weight proteins/peptides that associate with the most abundant species in serum. By this targeted isolation of select highly abundant serum proteins, the associated proteins/peptides can be enriched and effectively identified by μRPLC‐MS/MS. Among the 210 proteins identified, 73% and 67% were not found in previous studies of the low‐molecular‐weight or whole‐serum proteome, respectively.
Keywords
Albumin, biomarker, serum, proteome, ionization
Recommended Citation
Chan, King C.; Conrads, Thomas P.; Issaq, Haleem J.; Liotta, Lance A.; Lucas, David A.; Petricoin, Emanuel F.; Veenstra, Timothy D.; and Zhou, Ming, "An Investigation into the Human Serum “Interactome”" (2004). Pharmaceutical Sciences Faculty Publications. 462.
https://digitalcommons.cedarville.edu/pharmaceutical_sciences_publications/462