TY - JOUR
T1 - Constrained selected reaction monitoring
T2 - Quantification of selected post-translational modifications and protein isoforms
AU - Liu, Xiaoqian
AU - Jin, Zhicheng
AU - O'Brien, Richard
AU - Bathon, Joan
AU - Dietz, Harry C.
AU - Grote, Eric
AU - Van Eyk, Jennifer
N1 - Funding Information:
The authors thank members of our lab for assistance including Weihua Ji for managing the triple quadrupole facility, Qin Fu for running proteins on the LTQ Orbitrap and advice regarding the TGF-β SRM assays, John Tra for predicting CEs with Skyline, Justyna Fert-Bober for ELISA assays, and Sarah Parker for running western blots. Mouse sera and human saliva were kindly provided by Jennifer Habashi (Johns Hopkins University). This work was supported by grants: Johns Hopkins ICTR/CTSA grant 1U54RR023561-01A1 (JVE); the NHLBI Proteomics contract NHLBI-HV-10-05 (2) (JVE); 1R01OD011635-01 (HD, JVE); American College of Rheumatology Within Our Reach Campaign (to JMB).
PY - 2013/6/15
Y1 - 2013/6/15
N2 - Selected reaction monitoring (SRM) is a mass spectrometry method that can target signature peptides to provide for the detection and quantitation of specific proteins in complex biological samples. When quantifying a protein, multiple peptides are generated using a specific protease such as trypsin, thereby allowing a choice of signature peptides with robust signals. In contrast, signature peptide selection can be constrained when the goal is to monitor a specific post-translational modification (PTM) or protein isoform, as the signature peptide must include the amino acid residue(s) of PTM attachment or sequence variation. This can force the selection of a signature peptide with a weak SRM response or one that is confounded by high background. In this article, we discuss steps that can be optimized to maximize peptide selection and assay performance of constrained SRM assays, including tuning instrument parameters, fragmenting product ions, using a different protease, and enriching the sample. Examples are provided for phosphorylated or citrullinated peptides and protein isoforms.
AB - Selected reaction monitoring (SRM) is a mass spectrometry method that can target signature peptides to provide for the detection and quantitation of specific proteins in complex biological samples. When quantifying a protein, multiple peptides are generated using a specific protease such as trypsin, thereby allowing a choice of signature peptides with robust signals. In contrast, signature peptide selection can be constrained when the goal is to monitor a specific post-translational modification (PTM) or protein isoform, as the signature peptide must include the amino acid residue(s) of PTM attachment or sequence variation. This can force the selection of a signature peptide with a weak SRM response or one that is confounded by high background. In this article, we discuss steps that can be optimized to maximize peptide selection and assay performance of constrained SRM assays, including tuning instrument parameters, fragmenting product ions, using a different protease, and enriching the sample. Examples are provided for phosphorylated or citrullinated peptides and protein isoforms.
KW - Post-translational modification
KW - Protein isoform
KW - Quantification
KW - Selected reaction monitoring
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U2 - 10.1016/j.ymeth.2013.03.006
DO - 10.1016/j.ymeth.2013.03.006
M3 - Article
C2 - 23523700
AN - SCOPUS:84879598151
SN - 1046-2023
VL - 61
SP - 304
EP - 312
JO - Methods
JF - Methods
IS - 3
ER -