2009
DOI: 10.1021/ac901447h
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Multiple Reaction Monitoring Cubed for Protein Quantification at the Low Nanogram/Milliliter Level in Nondepleted Human Serum

Abstract: Mass spectrometry-based strategies for the quantification of low-abundance putative protein biomarkers in human blood currently require extensive sample fractionation steps which hamper their implementation in a routine and robust way across clinical laboratories. We demonstrate that a technique using MS(3) reconstructed chromatograms on a signature of secondary ions issued from a trapped primary product ion, termed multiple reaction monitoring cubed (MRM(3)), enables targeting protein biomarkers in the low na… Show more

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Cited by 132 publications
(94 citation statements)
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“…One could envision that such an experiment would use a multidimensional fractionation scheme and extensive analysis of co-fractionation profiles that follow from quantitative mass spectrometry using e.g. the multiple reaction monitoring method (57,58). We expect that combining these data with those from co-purification strategies where protein complexes are isolated using tagged proteins will provide a more complete and accurate description of protein localization.…”
Section: Discussionmentioning
confidence: 99%
“…One could envision that such an experiment would use a multidimensional fractionation scheme and extensive analysis of co-fractionation profiles that follow from quantitative mass spectrometry using e.g. the multiple reaction monitoring method (57,58). We expect that combining these data with those from co-purification strategies where protein complexes are isolated using tagged proteins will provide a more complete and accurate description of protein localization.…”
Section: Discussionmentioning
confidence: 99%
“…However, for SRM methods to approach the performance of immunoassays for measurement of low-abundance protein biomarkers, both the sensitivity and dynamic range of SRM measurements need to be further significantly increased. In order to further increase the detection sensitivity of SRM, several important developments have been made to both the front-end separation/enrichment and back-end MS detection, such as stable isotope standards and capture by anti-peptide antibodies (SISCAPA) (Anderson et al 2004); high-pressure, high-resolution separations coupled with intelligent selection and multiplexing (PRISM) (Shi et al 2012a); and selected reaction monitoring cubed (SRM 3 ) (Fortin et al 2009). Effectively reducing sample complexity and matrix interference is critical in order to increase the sensitivity of SRM.…”
Section: Sensitivity Enhancementmentioning
confidence: 99%
“…These systems permit the specific quantitation of low abundant ions through an additional ' MS 3 ' fragmentation step in the ion trap. This approach in has been used to quantify prostate specific antigen (PSA) in non-depleted human serum with satisfactory linearity (10 -1000 μ g/L), sensitivity, and selecti vity [64 ].…”
Section: Triple Quadrupoles (Esi-qqq)mentioning
confidence: 99%