Project description:Streptococcus pneumoniae has three main transporters for iron acquisition: PiaABC, PiuABC, and PitABC. Our previous study had shown that the mRNA and protein levels of SPD_1590 are significantly upregulated in a piuA/piaA/pitA triple mutant, suggesting that SPD_1590 might be a novel iron transporter in S. pneumoniae. In the present work, using spd1590-deleted and -overexpressing strains and the purified SPD_1590 protein, we show that SPD_1590 can bind hemin. Furthermore, the results of iTRAQ quantitative proteomics and cell-infection studies demonstrate that, similarly to other metal-ion uptake proteins, SPD_1590 is important for bacterial virulence.

Project description:Lysine acetylation is a prevalent post-translational modification in both eukaryotes and prokaryotes. Whereas this modification is known to play pivotal roles in eukaryotes, the function and extent of this modification in prokaryotic cells remain largely unexplored. Here we report the acetylome of a pair of antibiotic-sensitive and -resistant nosocomial pathogen Acinetobacter baumannii SK17-S and SK17-R. A total of 145 lysine acetylation sites on 125 proteins was identified, and there are 23 acetylated proteins found in both strains, including histone-like protein HU which was found to be acetylated at Lys13. HU is a dimeric DNA-binding protein critical for maintaining chromosomal architecture and other DNA-dependent functions. To analyze the effects of site-specific acetylation, homogenously Lys13-acetylated HU protein, HU(K13ac) was prepared by genetic code expansion. Whilst not exerting an obvious effect on the oligomeric state, Lys13 acetylation alters both the thermal stability and DNA binding kinetics of HU. Accordingly, this modification likely destabilizes the chromosome structure and regulates bacterial gene transcription. By preparing and characterizing site-specifically acetylated bacterial protein for the first time, this work indicates that acetyllysine plays an important role in bacterial epigenetics and presents a promising target against bacterial infections.

Project description:Distinct genotypic and pathogenicity differences exist between strains of the opportunistic protozoan Toxoplasma gondii. The label-free quantitative acetylomics approach was applied to investigate the differences in the level of acetylation between RH strain, PRU strain and PYS strain of T. gondii. The results showed that lysine acetylation in RH strain was the largest (458 acetylated proteins) among the three strains. The PYS strain had the second-largest acetylome (188 acetylated proteins), whereas lysine acetylation in PRU strain (115 acetylated proteins) was the smallest. Motif analysis revealed four, three and four motifs enriched from lysine acetylation sequences in RH strain, PRU strain and PYS strain respectively, suggesting specificity of acetyltransferases in these strains. Our analysis also identified 15 DAPs (differentially expressed acetylated proteins), 3 DAPs and 26 DAPs in RH strain vs PRU strain, PRU strain vs PYS strain and PYS strain vs RH strain, respectively. Compared with PYS strain and PRU strain, histone acetyltransferase and glycyl-tRNA synthase had higher expression levels in RH strain, reflecting genotype-specific differences in stress tolerance. These findings provide novel insight into the acetylomic profiles of major genotypes of T. gondii and provide an important resource for further analysis of the roles of the acetylated parasite proteins in the regulation of cellular functions.

Project description:V. vulnificus is an emergent pathogen and causes deadly septicemia in human. Protein acetylation regulates many important biological processes in bacteria. In this study, we identified the first lysine acetylome of V. vulnificus based on the whole-genome sequence of a cefoxitin-resistant strain isolated from a mortality case in China. A total of 6,626 acetylation sites at 1,924 acetylated proteins were uncovered, which to our knowledge represented the largest acetylated protein number that has been identified in bacteria. The presence of acetylation sites in virulence- and antibiotic resistance-related proteins further indicated the important role of acetylated modification on bacterial virulence and antibiotic resistance. Further investigation on the regulatory mechanisms will provide a better understanding of pathogen-host interactions in this increasingly pathogen.

Project description:Polyporus umbellatus sclerotia are medicinal tissue, but little is known about acetylome of sclerotia generated from hyphae. Acetylated peptides in P. umbellatus were enriched by anti-acetyl-lysine antibody beaded agarose and DDA data were acquired by AB Triple TOF 5600+. Raw data were analyzed by ProteinPilot software to obtained acetylated peptides and proteins, and carried out bioinformatics analysis.

Project description:Cancer-derived small extracellular vesicles have been proposed as promising potential biomarkers for diagnosis and prognosis of breast cancer (BC). We performed a proteomic study of lysine acetylation of breast cancer-derived small extracellular vesicles (sEVs) to understand the potential role of the aberrant acetylated proteins in the metastasis and progression of BC. Three cell lines were used as models for this study: MCF10A (non-metastatic), MCF7 (estrogen and progesterone receptor positive, metastatic) and MDA-MB-231 (triple-negative, highly metastatic). For a com-prehensive protein acetylation analysis of the sEVs derived from each cell line, acetylated peptides were enriched using the anti-acetyl-lysine antibody, followed by LC-MS/MS analysis. In total, 118 lysine acetylated peptides of which 22, 58 and 82 have been identified in MCF10A, MCF7 and MDA-MB-231 cell lines, respectively. These acetylated peptides were mapped to 60 distinct pro-teins and mainly identified proteins involved in metabolic pathways. Among those identified acetylated proteins presented in cancer-derived sEVs (MCF7, MDA-MB-231) are proteins associ-ated with glycolysis pathway, annexins and histones. Five enzymes from the glycolytic pathway, present only in sEVs isolated from cancer-derived sEVs cell lines, were validated. These include aldolase (ALDOA), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), phosphoglycerate kinase (PGK 1), enolase (ENO) and pyruvate kinase M1/2 (PKM). For three of these enzymes, ALDOA, PGK 1 and ENO, the specific enzymatic activity was significantly higher in MDA-MB-231 when compared with MCF10A-derived sEVs. This study reveals that sEVs contain acetylated glycolytic metabolic enzymes that could be interesting potential candidates for early BC diagnostics.

Project description:Genes clustered into polycistronic operons was thought a characteristic of bacteria and many other species. More than half protein-coding genes are organized in polycistronic operons composed of two or more than ten genes in bacterial genomes. Although the structure of operons have been studied precisely, how the member genes within operon maintain their stoichiometry expression is remain unknown. Using a highly accurate label-free absolute quantification method DIA (data-independent acquisition), we present a global analysis of Escherichia coli proteome, quantified 1607 proteins, including 59.1% of the known polycistronic operons. We found shorter operons tend to be more tightly controlled than longer operons, and those operons for metabolic pathways are less controlled for stoichiometry balance than those operons for protein complexes. Our results thus reveal the two-level regulation mode involving transcription and translation of operons would balance the stoichiometry expression of genes in polycistronic operons in different time-scale.

Project description:In this project we present the identification of interactors of mono-acetylated ubiquitin (Ub) variants from HEK293T whole cell extracts. Affinity enrichment coupled to high-resolution mass spectrometry followed by label-free quantification revealed the interactome of the respective mono-acetylated Ub variants.

Project description:Comparison of Gentamicin 4 drug-treated individuals vs. 4 vehicle-treated, pooled individuals composed of 2 forward-labeled (Cy5: drug-treated individual, Cy3: vehicle-treated pool) and 2 reverse-labeled (Cy5: vehicle-treated pool, Cy3: drug-treated individual) slides. These comparisons were done across 5 different strains: CD-IGS (sensitive and resistant), CDF, and three PharmGenix (TM) strains, with 4 drug-treated individuals vs. 4 vehicle-treated, pooled individuals per strain.

Project description:Objectives: Colistin remains a last-line treatment for multidrug-resistant Acinetobacter baumannii and combined use of colistin and carbapenems has shown synergistic effects against multidrug-resistant strains. In order to understand the bacterial responses to these antibiotics we analysed the transcriptome of A. baumannii following exposure to each.