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Expediting SRM assay development for large-scale targeted proteomics experiments.


ABSTRACT: Because of its high sensitivity and specificity, selected reaction monitoring (SRM)-based targeted proteomics has become increasingly popular for biological and translational applications. Selection of optimal transitions and optimization of collision energy (CE) are important assay development steps for achieving sensitive detection and accurate quantification; however, these steps can be labor-intensive, especially for large-scale applications. Herein, we explored several options for accelerating SRM assay development evaluated in the context of a relatively large set of 215 synthetic peptide targets. We first showed that HCD fragmentation is very similar to that of CID in triple quadrupole (QQQ) instrumentation and that by selection of the top 6 y fragment ions from HCD spectra, >86% of the top transitions optimized from direct infusion with QQQ instrumentation are covered. We also demonstrated that the CE calculated by existing prediction tools was less accurate for 3+ precursors and that a significant increase in intensity for transitions could be obtained using a new CE prediction equation constructed from the present experimental data. Overall, our study illustrated the feasibility of expediting the development of larger numbers of high-sensitivity SRM assays through automation of transition selection and accurate prediction of optimal CE to improve both SRM throughput and measurement quality.

SUBMITTER: Wu C 

PROVIDER: S-EPMC4184450 | biostudies-literature | 2014 Oct

REPOSITORIES: biostudies-literature

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Expediting SRM assay development for large-scale targeted proteomics experiments.

Wu Chaochao C   Shi Tujin T   Brown Joseph N JN   He Jintang J   Gao Yuqian Y   Fillmore Thomas L TL   Shukla Anil K AK   Moore Ronald J RJ   Camp David G DG   Rodland Karin D KD   Qian Wei-Jun WJ   Liu Tao T   Smith Richard D RD  

Journal of proteome research 20140904 10


Because of its high sensitivity and specificity, selected reaction monitoring (SRM)-based targeted proteomics has become increasingly popular for biological and translational applications. Selection of optimal transitions and optimization of collision energy (CE) are important assay development steps for achieving sensitive detection and accurate quantification; however, these steps can be labor-intensive, especially for large-scale applications. Herein, we explored several options for accelerat  ...[more]

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