Project description:MOUSE CSF PRM Mecp2 - 20 samples with AQUA standards

Project description:Women are vulnerable to cervical diseases including normal control, HSIL and early stage cervical carcinoma . The parallel reaction monitoring mass spectrometry (PRM-MS) were used to qualitatively and quantitatively analyze the candidate differential proteins identified in our previous studies and to link them with HPV status. The integration of HPV status with candidate serum markers is expected to efficiently narrow down the high risk population and provide sufficient clinical information for early diagnosis and effective therapy.

Project description:Parallel Reaction Monitoring of Proteomic database

Project description:According to a previous study on the microscopic examination of stem barks in ramie, bast fibers from different parts of stem bark showed distinct differences at the developmental level: specifically, the barks in the top part of stem (TPS) did not initiate fiber growth, whereas barks in the middle part of stem (MPS) had a large number of fibers with thickening secondary walls. We have performed the phosphoproteome analysis for the tissues of TPS and MPS, and then carried out the comparison of phosphorylation level of proteins between two tissues, thereby to identified differentially phosphorylated proteins. These datasets represent the raw UHPLC spectra for phosphoproteome of ramie TPS and MPS.

Project description:Parallel reaction monitoring (PRM) analysis was used to confirm changes in abundance of the target proteins (AceF, SodA, YopD, YopE, GroEL, TerE, and OsmY2),. Equal amounts of proteins from the culture supernatants and cell pellets were separated by SDS-PAGE, and bands corresponding to each of the target proteins were subjected to in-gel digestion. The peptide samples for the target proteins were then analyzed by mass spectrometry, and three peptides from each target protein were selected for the PRM analysis. The selection criterion for the peptides was a sequence length of 6–15 amino acids, while peptides with any modifications or missed cleavage sites were excluded. The peak area of three b-/y-ions from each peptide was used to calculate the peptide ratio, and the ratios of three peptides were used to determine the target protein ratio in different samples.

Project description:In this study, the levels of expression of nine proteins in the presence of ampicillin (LBP_cg0109, Small heat shock protein; LBP_cg0397, L-serine dehydratase, beta subunit; LBP_cg0719, hypothetical protein; LBP_cg0720, hypothetical protein; LBP_cg0721, Alkaline shock protein; LBP_cg0722, Alkaline shock protein; LBP_cg2704, Formate acetyltransferase activating enzyme; LBP_cg0885, Malate dehydrogenase) were validated by parallel reaction monitoring.

Project description:Abnormal epigenetic reprogramming is one of the major causes leading to irregular gene expression and regulatory pathway perturbations, in the cells, resulting in unhealthy cell development or diseases. Accurate measurements of these changes of epigenetic modifications, especially the complex histone modifications, are very important, and the methods for these measurements are not trivial. By following our previous introduction of PRM to targeting histone modifications (Tang, H.; Fang, H.; Yin, E.; Brasier, A. R.; Sowers, L. C.; Zhang, K. Multiplexed parallel reaction monitoring targeting histone modifications on the QExactive mass spectrometer. Anal. Chem. 2014, 86 (11), 5526-34), herein we validated this method by varying the protein/trypsin ratios via serial dilutions. Our data demonstrated that PRM with SILAC histones as the internal standards allowed reproducible measurements of histone H3/H4 acetylation and methylation in the samples whose histone contents differ at least one-order of magnitude. The method was further validated by histones isolated from histone H3 K36 trimethyltransferase SETD2 knockout mouse embryonic fibroblasts (MEF) cells. Furthermore, histone acetylation and methylation in human neural stem cells (hNSC) treated with ascorbic acid phosphate (AAP) were measured by this method, revealing that H3 K36 trimethylation was significantly down-regulated by 6 days of treatment with vitamin C.

Project description:High-density lipoprotein (HDL), a lipid nanoparticle containing many different low abundance proteins, is an attractive target for clinical proteomics because its compositional heterogeneity is linked to its cardioprotective effects. Selected reaction monitoring (SRM) is currently the method of choice for targeted quantification of proteins in such a complex biological matrix. However, model system studies suggest that parallel reaction monitoring (PRM) is more specific than SRM because many product ions can be used to confirm the identity of a peptide. We therefore compared PRM and SRM for their abilities to quantify proteins in HDL, using (15)N-labeled apolipoprotein A-I (HDL's most abundant protein) as the internal standard. PRM and SRM exhibited comparable linearity, dynamic range, precision, and repeatability for protein quantification of HDL. Moreover, the single internal standard protein performed as well as protein-specific peptide internal standards when quantifying 3 different proteins. Importantly, PRM and SRM yielded virtually identical quantitative results for 26 proteins in HDL isolated from 44 subjects. Because PRM requires less method development than SRM and is potentially more specific, our observations indicate that PRM in concert with a single isotope-labeled protein is a promising new strategy for quantifying HDL proteins in translational studies.Biological significanceHDL, a complex matrix composed of lipids and proteins, is implicated in cardioprotection. Its cholesterol content correlates inversely with cardiovascular disease and it is the current metric to assess cardiovascular risk. However, the cholesterol content does not capture HDL's complexity and heterogeneity. Devising metrics that better capture HDL's cardioprotective effects, we developed an optimized method for quantification of HDL proteome, using PRM in concert with a single labeled protein as internal standard. The availability of a method that increases sample throughput without compromising the reproducibility, sensitivity, and accuracy could therefore point to better risk assessment for CVD or other diseases.

Project description:To support quantitative data analysis, we have developed a software, peakfit, that fits acquired chromatographic data to the log-normal peak equation and reports the calculated peak parameters. To demonstrate the capabilities of this approach, we provide hereby four example datasets: (1) 15 QCs of a PRM assay targeting the three most common isoforms of Apolipoprotein E (E2, E3, and E4); (2) PRM data of samples with 6 different ApoE phenotypes (E2/2, E2/3, E2/4, E3/3, E3/4, and E4/4); (3) shotgun run of a commercial HeLa digest to demonstrate processing of MS1 data, and (4) a quality control peptide mix to demonstrate assessment of chromatographic performance on basis of the base peak chromatogram.

Project description:Development, implementation, and evaluation of a new data acquisition scheme called internal standard triggered-parallel reaction monitoring (IS-PRM) to increase the scale of targeted quantitative experiments while retaining high detection and quantification performance. All the details about the dataset, the associated sample preparation and liquid chromatography coupled to tandem mass spectrometry methods, and the data processing procedures are provided in the manuscript by Gallien et al., entitled "Large-Scale Targeted Proteomics Using Internal Standard Triggered-Parallel Reaction Monitoring", Molecular and Cellular Proteomics.