Project description:Protein tyrosine sulfation (sY) is a post-translational modification (PTM) catalysed by Golgi-resident Tyrosyl Protein Sul-foTransferases (TPSTs). Information on protein tyrosine sulfation is currently limited to ~50 human proteins with only a handful of those having verified sites of sulfation. The contribution of this chemical moiety for the regulation of biological processes, both inside and outside the cell, remains poorly defined in large part due to analytical limitations. Mass spectrom-etry-based proteomics is the method of choice for PTM analysis, but has yet to be applied for the systematic investigation of biological sulfation (the ‘sulfome’), primarily due to issues associated with discrimination of sY- from phosphotyrosine (pY)-containing peptides. In this study, we developed a mass spectrometry (MS)-based workflow centred on the characteri-zation of sY-peptides, incorporating optimised Zr4+-IMAC and TiO2 enrichment strategies. Extensive characterization of a panel of sY- and pY-peptides using an array of MS fragmentation regimes (CID, HCD, EThcC, ETciD, UVPD) highlights differences in the ability to generate site-determining product ions, which can be exploited to differentiate sulfated peptides from nominally isobaric phosphopeptides based on precursor ion neutral loss at low collision energy. Application of our ana-lytical workflow to the HEK-293 cell extracellular secretome facilitated identification of 23 new sulfotyrosine-containing peptides, several of which we validate enzymatically using in vitro sulfation assays. Our study demonstrates the applicabil-ity of this strategy for confident, high-throughput, ‘sulfomics’ studies

Project description:HCT116 and HCT116 p53 null were exposed to two Aurora kinase inhibitors (CYC116 and ZM447439) at cytotoxic concentrations. Within 4-5 weeks we were able to select and isolate 10 drug resistant clones from each group. 3 clones were selected for gene expression profiling using Affymetrix microarrays (Human Gene 1.0 ST Array). The samples in each group were initially given the code names as follows. Group 1. [R1.3, R4.2, R6.3: CYC116 p53 wild type], Group 2. [R8.7, R9.7, R10.7:CYC116 p53 null], Group 3. [R7.1, R15.1, R16.1:ZM447439 p53 wild type], and Group 4. [R1.5, R3.5, R4.5:ZM447439 p53 null). For publication purpose the names were later changed to, Group 1. [R1.1, R1.2, R1.3: CYC116 p53 wild type], Group 2. [R2.1, R2.2, R2.3:CYC116 p53 null], Group 3. [R3.1, R3.2, R3.3:ZM447439 p53 wild type], and Group 4. [R4.1, R4.2, R4.3:ZM447439 p53 null].

Project description:NAD(H) and NADP(H) are crucial coenzymes and play important and distinguishable roles in all living organisms. NAD(H) is primarily involved in catabolic reactions, whereas NADP(H) participates in anabolic reactions, such as NADP(H)-dependent reductive anabolic pathways, signal transduction, and defense against oxidative stress. Hence, regulation of the intracellular balance of NAD(H) and NADP(H) is critical. NAD(H) kinase (NADK) is the key enzyme in the de novo biosynthesis of NADP(H), catalyzing the transfer of a phosphoryl group from ATP to NAD(H), and thus plays an important role in the regulation of intracellular NAD(H)/NADP(H) balance for NADP(H)-based metabolic pathways. We used microarrays to detail the global programme of gene expression between WT and osnadk1 and identified distinct classes of up-regulated and down-regulated genes during this process.

Project description:Acetyl phosphate (AcP) is a small-molecule metabolite that can act as a phosphoryl group donor for response regulators of two-component regulatory systems (TCSs). Streptococcus pneumoniae (pneumococcus) synthesizes AcP by the conventional pathway involving the phosphotransacetylase and acetate kinase enzymes encoded by the pta and ackA genes, respectively. In addition, pneumococcus synthesizes copious amounts of AcP and hydrogen peroxide (H2O2) by the pyruvate oxidase enzyme encoded by spxB. To access possible roles of AcP in pneumococcal TCS regulation and metabolism, we constructed combinations of spxB, pta, and ackA mutants and determined their ATP, AcP, and H2O2 production. Epistasis and microarray experiments were consistent with a role for the AcP biosynthetic pathway in basal-level phosphorylation of WalRSpn and possibly other response regulators involved in sensing cell wall status. However, this basal phosphorylation likely does not play an active physiological role in sensing in S. pneumoniae.

Project description:Mitochondrial biogenesis is regulated by signaling pathways sensitive to extracellular conditions and to the internal environment of the cell. We found that deletion of protein phosphatase 2A (PP2A) or of protein phosphatase 6 (PP6) diminishes the nuclear transcriptional response associated with mtDNA damage. Six samples were analyzed to determine message RNA levels.

Project description:The purpose of this study was to evaluate the effect of progressive weight loss (5, 10, 15% weight loss) on metabolic function such as multi-organ insulin sensitivity and beta-cell function in obese people. We conducted microarray analysis to determine the effect of progressive weight loss on adipose tissue gene expression profile. We examined subcuntaneous adipose tissue samples obtained from 9 obese subjects before (A) and after 5% (B), 10% (C) and 15% (D) weight loss (total 36 samples).

Project description:Phosphoproteomics requires better separation of phosphopeptides to boost the coverage of the phosphoproteome. We argue that an alternative separation method that produces orthogonal phosphopeptide separation to the widely used LC needs to be considered. Capillary zone electrophoresis (CZE) is one important alternative because CZE and LC are orthogonal for phosphopeptide separation and because the migration time of peptides in CZE can be accurately predicted. In this work, we coupled strong cation exchange (SCX)-reversed-phase LC (RPLC) to CZE-MS/MS for large-scale phosphoproteomics of the colon carcinoma HCT116 cell line. The CZE-MS/MS-based platform identified 11,555 phosphopeptides. The phosphopeptide dataset is at least 100% larger than that from previous CZE-MS/MS studies and will be a valuable resource for building a model for predicting the migration time of phosphopeptides in CZE. Preliminary investigations demonstrated that predicted and observed electrophoretic mobility of phosphopeptides containing one phosphoryl group had good linear correlations (R2≥0.94). Adding one phosphoryl group on a peptide decreased its electrophoretic mobility dramatically because the phosphoryl group reduced the peptide’s charge by roughly 1 based on our experimental data. Phosphopeptides tended to migrate significantly slower than unphosphopeptides in the CZE separation capillary and phosphorylated and unphosphorylated forms of peptides were separated well by CZE. The CZE-MS/MS and LC-MS/MS were complementary in large-scale phosphopeptide identifications and produced different phosphosite motifs from the HCT116 cell line. The data highlight the value of CZE-MS/MS for phosphoproteomics as a complementary separation approach for not only improving the phosphoproteome coverage but also providing more insight into the phosphosite motifs.

Project description:Sgo1 makes multipartite interactions with CPC subunits Previous studies have suggested that the Sgo1-CPC (Chromosomal Passenger Complex) interaction is mediated via the N-terminal coiled-coil of Sgo1 and Borealin. However, our structural data revealed that the very N-terminus of Sgo1 can interact with the BIR domain of Survivin. Together, these studies suggest that multi-partite interactions between Sgo1 and different CPC subunits could facilitate CPC-Sgo1 complex formation. To gain further structural insights, we performed chemical cross-linking of the CPCISB10-280-Sgo11-415 complex using a zero-length cross-linker, 1-ethyl-3-(3-dimethylaminopropyl) carbodiimide (EDC), followed by mass spectrometry analysis. Cross-linking-mass spectrometry (CLMS) data showed that: (1) consistent with our previous observations, the N-terminal region of Sgo1 (amino acids 1-34) makes extensive contacts with Survivin BIR domain (amino acids 18-89); (2) the N-terminal coiled-coil of Sgo1 (amino acids 10-120) interacts with the CPC triple helical bundle; (3) consistent with previous findings, the N-terminal coiled-coil also contacts the Borealin dimerisation domain; and (4) the Sgo1 region beyond the N-terminal coil-coil region, which is predicted to be unstructured, contacts both Survivin and Borealin with most contacts confined to the Sgo1 central region spanning amino acids (aa) 180-300. Thus, our cross-linking results suggests that Sgo1 interacts with CPC, mainly via two regions, the N-terminal coiled-coil domain and the unstructured central region.

Project description:Bottom up proteomic analysis of gigaxonin to characterize GlcNac PTMs sites

Project description:Monoclonal gammopathy of undetermined significance (MGUS) is a plasma cell disorder, leading to the presence of monoclonal antibody (i.e., M-protein) in serum, without clinical symptoms. Here we present a case study in which we detect MGUS by liquid-chromatography coupled with mass spectrometry (LC-MS) profiling of IgG1 in human serum. We detected a Fab-glycosylated M-protein and determined the full heavy and light chain sequences by bottom-up proteomics techniques using multiple proteases, further validated by top-down LC-MS. Moreover, the composition and location of the Fab-glycan could be determined in CDR1 of the heavy chain.