Project description:In order to determine how phosphorylation of CDK substrates affects their thermal stability, we treated Jurkat T cells with DMSO, Nocodazole, or Nocodazole + CDK inhibitors (Dinaciclib and Palbociclib).

Project description:Tissue-specific cerebellum knockouts of Anaphase-promoting complex subunits CDH1 and APC7 were compared to littermate controls to investigate the protein targets of the APC in post-mitotic neurons, as well as the effect of these proteins on the cerebellar phosphoproteome.

Project description:Protein phosphorylation has long been recognized as an essential regulator of protein activity, structure, complex formation, and sub-cellular localization among other cellular mechanisms. However, interpretation of the changes in protein phosphorylation is difficult. To address this difficulty, we measured protein and phosphorylation site changes across 11 points of a time course and developed a method for categorizing phosphorylation site behavior relative to protein level changes using the diauxic shift in yeast as a model and TMT11 sample multiplexing. We classified quantified proteins into behavioral categories that reflected differences in kinase activity, protein complex structure, and growth and metabolic pathway regulation across different phases of the diauxic shift. These data also provide a valuable resource for the study of fermentative versus respiratory growth and set a new benchmark for temporal quantitative proteomics and phosphoproteomics for Diauxic Shift in Saccharomyces cerevisiae.

Project description:Obesity is a major cancer risk factor, but the underlying molecular mechanisms are not always known. In this study, we look at proteome remodeling in cancer cells with obesity, comparing tumor cells sorted from mice fed high-fat versus control diet. We conducted 10-plex TMT-proteomics on GFP+ MC38 colorectal adenocarcinoma tumor cells, sorted from subcutaneously implanted tumors 12 days after implantation. This study reveals molecular pathways that change in cancer cells with obesity that promote tumor growth.

Project description:Pyrvinium pamoate, an anthelmintic drug, inhibits mitochondrial biogenesis during initial T-cell activation; however, its molecular target(s) and mechanism of action are unknown. In this study, we treated Jurkat T cell lysate with pyrvinium pamoate (5 nM and 50μM) and used proteome integral solubility alteration (PISA), to identify potential targets.

Project description:A proteomic comparison of the cerebella of APC7 KO mice versus controls using TMT11-plex reagents

Project description:Mutations in the E3 ubiquitin ligase Mkrn3 are associated with precocious puberty in humans. In order to determine the targets of Mkrn3, we performed a TMT-based proteomic analysis of Mkrn3 WT vs KO mouse brains.

Project description:Ligand binding to the EGF receptor (EGFR) initiates signal transduction and endocytosis of the receptor. The mechanisms of endocytosis and regulation of signaling by endocytosis are poorly understood. Here, we combined peroxidase-catalyzed proximity labeling, isobaric peptide tagging and quantitative mass-spectrometry to define the dynamics of the proximity proteome of EGFR in response to ligand activation. Using this approach, we identified a network of signaling proteins, which remain associated with the receptor during its endocytosis and trafficking through the endosomal system. We showed that Trk-fused gene (TFG), a protein known to function at the endoplasmic reticulum exit sites, was enriched early/sorting endosome proximity proteome of EGFR and localized in early an sorting endosomes, and demonstrated that TFG regulates endosomal sorting of EGFR. This study provides a large-scale resource of time-dependent nanoscale environment of activated EGFR, thus opening avenues to discovering new regulatory mechanisms of membrane trafficking of receptor tyrosine kinases. EGFR-APEX2 Experiment Datasets: TMT 1-3: HEK293T cells (0, 1, 10, 30 and 60 minutes EGF treatment) TMT 4: HCT116 cells (0, 2, 4, 6 , 8 and 10 minutes EGF treatment) TMT 5: HEK293T cells (0, 2, 4, 6 , 8 and 10 minutes EGF treatment) TMT 6: HEK293T cells (0 and 10 minutes EGF treatment) TMT 7: HCT116 cells (0 and 10 minutes EGF treatment)

Project description:Isobaric labeling empowers proteome-wide expression measurements simultaneously across multiple samples. Here, an expanded set of 16 isobaric reagents based on a proline backbone (TMTpro) is presented. These reagents have similar characteristics to existing TMT reagents but with increased fragmentation efficiency and signal. In a proteome-scale example dataset, we compared eight common cell lines with and without Torin1 treatment with three replicates, quantifying more than 8,800 proteins (mean of 7.5 peptides/protein) per replicate with an analysis time of only 67 min per proteome examined. Finally, we modified the powerful thermal stability assay to examine proteome-wide melting shifts after treatment with DMSO, 1 or 20 ������M staurosporine with five replicates. This new assay identified and dose-stratified the staurosporine binding to 228 cellular kinases in just one, 18-hr experiment. TMTpro reagents allow unprecedented complexity in experimental designs���������all with basically no missing values across the 16 samples and no loss in quantitative integrity.

Project description:Isobaric labeling empowers proteome-wide expression measurements simultaneously across multiple samples. Here, an expanded set of 16 isobaric reagents based on a proline backbone (TMTpro) is presented. These reagents have similar characteristics to existing TMT reagents but with increased fragmentation efficiency and signal. In a proteome-scale example dataset, we compared eight common cell lines with and without Torin1 treatment with three replicates, quantifying more than 8,800 proteins (mean of 7.5 peptides/protein) per replicate with an analysis time of only 67 min per proteome examined. Finally, we modified the powerful thermal stability assay to examine proteome-wide melting shifts after treatment with DMSO, 1 or 20 µM staurosporine with five replicates. This new assay identified and dose-stratified the staurosporine binding to 228 cellular kinases in just one, 18-hr experiment. TMTpro reagents allow unprecedented complexity in experimental designs—all with basically no missing values across the 16 samples and no loss in quantitative integrity.