Project description:In this study, DCAF5, a substrate receptor that has been shown to modulate the levels of SWI/SNF subunits, which are components of a chromatin remodeling complex. Here we preformed ubiquitinome proteomics to discover the underlying response of DCAF5 loss on ubiquitylation of SWI/SNF subunits. Furthermore, we determine what sites on SWI/SNF components decrease in ubiquitylation upon DCAF5 loss.

Project description:Analysis of HeLa cells at 24 hours after transfection with wild type miR-1, miR-124, miR-181 versus control transfected HeLa cells. Results were compared to protein down-regulation at 48 hours measured by SILAC-MS. Analysis of HeLa cells at 24 hours after transfection with wild type miR-1, miR-124, miR-181 versus control transfected HeLa cells. Results were compared to protein down-regulation at 48 hours measured by SILAC-MS.

Project description:To obtain rates of mRNA synthesis and decay in yeast, we established dynamic transcriptome analysis (DTA). DTA combines non-perturbing metabolic RNA labeling with dynamic kinetic modeling. DTA was used to monitor the cellular response to osmotic stress in comparison to the wild type. Genomic occupancy profiling of RNA polymerase (Pol) II was used to predict changes in mRNA synthesis rates.

Project description:The proper function of DNA damage response pathways (DDR) is essential to protect eukaryotic cells from the accumulation of DNA damage and genome instability, a major cause of cancer and other diseases in humans. Ubiquitylation orchestrates the regulation of DDR events.Blaszczak et al. use quantitative proteomics and a reporter system based on the NanoLuc luciferase to study ubiquitylation and protein abundance changes upon genotoxic stress in yeast. The authors point out proteins that may be regulated by ubiquitylation during the DDR.

Project description:A timecourse of adenovirus infection of human HeLa cells, using RNA-seq

Project description:The endosomal system is a highly dynamic multifunctional organelle, whose complexity is regulated in part by reversible ubiquitylation. Despite the wide-ranging influence of ubiquitin in endosomal processes, relatively few enzymes utilizing ubiquitin have been described to control endosome integrity and function. Here we reveal the deubiquitylating enzyme (DUB) ubiquitin-specific protease 32 (USP32) as a powerful new player in this context. Loss of USP32 inhibits late endosome (LE) transport and recycling of LE cargos to the TGN, resulting in dispersion and swelling of the late compartment. Using SILAC-based ubiquitome profiling we identify the small GTPase Rab7—the logistical centerpiece of LE biology—as a substrate of USP32. Mechanistic studies reveal that LE transport effector RILP prefers ubiquitylation-deficient Rab7, while retromer-mediated LE recycling benefits from an intact cycle of Rab7 ubiquitylation. Collectively, our observations suggest that reversible ubiquitylation helps switch Rab7 between its various functions, thereby maintaining global spatiotemporal order in the endosomal system.

Project description:Decitabine (5-aza-dC) is a DNMT1-DPC inducing agent used to treat several hematological cancers. However, response rates vary, relapse is common, and predictive biomarkers are unknown. Here, we develop an adaptation of identification of proteins on nascent DNA (iPOND) by combining EdU with 5-aza-dC incorporation by itself or the presence of either ubiquitin E1 or SUMO E1 inhibitor which we term iPOND-DPC. The purpose of this experiments is to identify proteins that are recruited to DNMT1-DPCs and categorize whether their recruitment is dependent on SUMOylation or ubiquitylation.

Project description:Exosomes, derived from multivesicular bodies (MVBs), contain proteins and genetic materials from their cell of origin and are secreted from various cells types, including kidney epithelial cells. In general, it is thought that protein cargo is ubiquitylated, but that ubiquitin is cleaved by specific deubiquitylases during the process of cargo incorporation into MVBs. Here, we provide direct evidence that in vivo, deubiquitylation is not essential. Ubiquitin was detected within human MVBs and urinary exosomes by electron microscopy. Protein mass spectrometry identified >6000 proteins in human urinary exosomes, 15% of which were ubiquitylated with various topologies (K63>K48> K11>K6>K29>K33>K27). Ubiquitylated proteins involved in transcriptional regulation or solute transport were significantly enriched. Non-biased analysis of over-represented motifs uncovered a significant preference for basic amino acids upstream of the ubiquitylation site. The current studies demonstrate that in human epithelial cells, deubiquitylation of protein cargo is not necessary for MVB formation and exosome secretion and highlight that urinary exosomes are an enriched source for studying ubiquitin modifications in physiological or disease states.

Project description:SILAC was employed to investigate the effect of aldosterone stimulation on SUMOylation of cortical collecting duct (mpkCCD) cells.

Project description:Von Willebrand Factor (vWF), a plasma glycoprotein, plays essential roles in primary hemostasis, in cooperation with other coagulation factors. The glycosylation affects many biological phases during the protein life-cycle. In this work, we comprehensively characterized the microheterogeneity at all probable N-glycosites in simultaneous with O-glycosites, beside the N-occupancy estimation.An RP-LC-MS/MS system functionalized with CID and HCD tandem mass techniques was utilized. Our results showed gradual glycosylation occupancy along the protein backbone. A total of 181 glycoforms, 173 N-froms and 8 O-forms, were detected and specified into plasma vWF glycosites. Given subtle characterization of site-specific glycoforms is critical for profound understanding the protein biological functions and activity.