Project description:Background: Lysine succinylation of proteins has potential impacts on protein structure and function, which occurred on post-translation level. However, the information about the lysine succinylation of proteins in tea plants is limited. In the present study, the significant signal of succinylation in tea plants was found by western blot. Subsequently, we performed qualitative analyses to globally identify lysine succinylation substrates by using high accuracy nano LC-MS/MS combined with affinity purification. Results: As a result, a total of 142 lysine succinylation sites were identified in 86 proteins. The identified succinylated proteins are involved in various biological processes and a large proportion of the succinylation sites are present on proteins in the primary metabolism pathway, including glyoxylate and dicarboxylate metabolism, the tricarboxylic acid (TCA) cycle and glycine, serine and threonine metabolism. Moreover, 10 new succinylated sites on histones were detected in tea plants either. Conclusions: These results suggested that succinylated proteins in tea plants might play critical regulatory roles in biological processes, especially in the primary metabolism. This study not only globally analysed the functional annotation of lysine succinylation in tea plants, but also provided valuable information for further investigating the functions of lysine succinylation in tea plants.

Project description:Hickory (Carya cathayensis) is an poplar nut-producing tree with high economic value. To overcome its long juvenile phase, grafting was applied to accelerate the transition from vegetative phase to reproductive phase. Lysine succinylation, a newly identified post-translational modification (PTM), is associated with various cellular processes. However, the regulatory mechanism underlying grafting process of hickory has not been studied at the level of PTM. Here, 259 succinylation sites in 202 proteins were identified, representing the first comprehensive lysine succinylome in hickory. The succinylation is biased to occur on the cytosolic proteins of hickory, indicating an effect of succinylation on the activities of enzymes associated with cellular metabolism. Moreover, four conserved succinylation motifs were identified in the succinylated peptides. Comparison of two grafting stages of hickory revealed that the differential expressed succinylated proteins were mainly involved in sugar metabolism, carbon fixation, amino acid metabolism and plant-pathogen interaction. In total, seven heat shock proteins (HSPs) with 11 succinylation sites were identified, and all these HSPs were up-regulated during the grafting process of hickory. Our data suggested that succinylated HSPs might play a role in the tolerance of grafted hickory plants. Our data are basic resources for the functional validation of succinylated proteins and a starting point for investigations into the molecular basis of lysine succinylation in the grafting process of hickory.

Project description:Background Hypothyroidism is a common disease, and its molecular mechanism still needs further investigation. Succinylation, as a newly identified protein posttranslational modification, is found to be involved in various metabolisms and cellular processes. In the present study, we performed quantitative analysis of the lysine succinylome in the thyroid of rats with hypothyroxinemia. Methods Hypothyroxinemia was induced in rats through the administration of a high-fat diet and then the thyroid tissues were taken out for further analysis. Affinity enrichment and liquid chromatography-tandem mass spectrometry techniques were applied for the quantitative proteome and succinylome analyses, respectively. Bioinformatic analyses were performed to decipher the differentially expressed proteins and succinylated sites, including the gene ontology (GO) annotation-based classification, Wolfpsort-based subcellular localization prediction, Kyoto Encyclopedia of Genes and Genomes (KEGG)-based functional pathway enrichment, and conserved domains of protein and succinylation sites prediction. Finally, the mitochondrial oxygen consumption rates of human normal thyroid epithelial cells were measured to further verify the role of lysine succinylation in vitro. Results Overall, 3869 proteins were identified, among which 129 differentially expressed proteins were quantified. Downregulated expressed proteins were enriched in the thyroid hormone synthesis and thyroid hormone signaling pathways and were mainly localized to the mitochondria and ATPase complex. In addition, 685 lysine succinylation sites on 250 proteins were identified, of which 172 lysine succinylation sites on 104 proteins were obvious changed (7 upregulated on 5 proteins and 165 downregulated on 99 proteins). Decreased succinylated proteins were involved in diverse metabolic pathways and biological processes, including the tricarboxylic acid cycle (TCA cycle), cellular respiration, energy derivation by oxidation of organic compounds and aerobic respiration. Moreover, these decreased succinylated proteins were primarily localized to the mitochondria. Finally, OCRs related to basal respiration, ATP production and maximal respiration were markedly blunted in the normal thyroid epithelial cells treated with palmitic acid (all p < 0.05), and the changes were reversed when the cells were treated with palmitic acid and desuccinylase inhibitor together (all p < 0.05). Conclusions The thyroid differentially expressed proteins and changed succinylation levels played a potential role in the mitochondria-mediated energy metabolism in the HFD-induced hypothyroxinemia rat model.

Project description:The details of Toll-like receptor (TLR) 4 signaling affects protein succinylation in intracerebral hemorrhage (ICH) brains remains completely unclear. In this study, we constructed mice ICH models to investigate the changes in ICH-associated brain protein succinylation with the treatment of TLR4 antagonist, TAK242, using a high-resolution mass spectrometry-based, quantitative succinyllysine proteomics approach. We characterized a concentration of approximately 6700 succinylation events and quantified approximately 3500 sites, highlighting 139 succinyllysine site changes in 40 pathways. Further analysis showed that TAK242 treatment induced an increase in 29 succinyllysine sites of 28 succinylated proteins and reduction of 24 succinyllysine sites on 23 succinylated proteins in ICH brains. Both the TAK242 treatment induced hypersuccinylated and hyposuccinylated proteins in ICH brains were mainly located in mitochondria and cytoplasm. GO analysis showed that TAK242 treatment induced changes in ICH-associated succinylated proteins were mostly located in synapse, membrane, vesicle, etc., and enriched in many processes, such as metabolism, synapse, myeline, etc.. KEGG analysis showed that TAK242 induced downregulation of succinylation was significantly linked to fatty acid metabolism and lysosome. Moreover, a combination analysis of our succinylproteomic data with previously published transcriptome data identified that most of the differentially succinylated proteins induced by TAK242 treatment were mainly distributed into neurons, astrocytes and endothelial cells; and 7 and 3 of these succinylated proteins significantly high express in neurons and astrocytes, respectively. In conclusion, our analyses uncover a number of TLR4 signaling affected succinylation processes and pathways in mouse ICH brains and provide new insights for understanding ICH pathophysiological processes.

Project description:Lysine acetylation and succinylation are post-translational modifications of proteins, and have been shown to play roles in plant response to pathogen infection. Phytoplasma infection can directly alter multiple metabolic processes in Paulownia and lead to Paulownia witches’ broom (PaWB), the major cause of Paulownia mortality worldwide. To explore the extent and function of lysine acylations during phytoplasma infection, we investigated global proteome, acetylome, and succinylome of phytoplasma-infected Paulownia tomentosa seedlings. In total, we globally yield 8963 proteins, 2893 acetylated, and 1271 succinylated proteins. Among them, 425 substrates were simultaneously acetylated and succinylated. Comparative analysis revealed that 276 proteins, 546 acetylated proteins and 5 succinylated proteins were associated with PaWB. Our results suggested that acetylation may be more important than succinylation in response to phytoplasma infection. Enzymatic assays showed that acetylation modified the activities of protochlorophyllide reductase and RuBisCO in phytoplasma-infected seedlings. On the basis of these results, a model to elucidate the molecular mechanism responses to PaWB was proposed and this research offer a resource for functional studies on the effects of acetylation on protein function.

Project description:Protein lysine succinylation, an emerging protein post-translational modification widespread among microbiology, animals and plants, represents an important regulator of cellular processes. In our study, we took the first succinylation proteome analysis in the seedling leaves of Bd21 to draw a schematic map. With high accuracy nano LC-MS/MS combined with affinity purification, a total of 605 succinylated peptides in 323 proteins were identified and were implicated in various molecular functions and cellular biological processes. More than half (53.4%) of the proteins only have one lysine succinylated site. These identified proteins are involved in a variety of cellular functions such as amino acids transport/metabolism, post-translational modification, translation/ribosomal structure and lipid metabolism, especially energy and carbohydrate metabolism via GO, conservation analysis, protein interaction network and other bioinformatics analysis. Motif-X analysis of the succinylation sites identified fourteen significantly enriched succinylation motifs (-Ksucc-----K-, -Ksucc------G- etc) for the first time in plants and will provide possible succinylation binding locus for future studies. Secondary structure analysis showed that the succinylation sites occurred predominantly in alpha helix and coil structures which similar with acetylation. 155 (59.2%) of the homologous succinylated proteins were also identified in other three species (E. coli, S. cerevisiae and H. sapiens). 119 (45.4%) succinylated proteins and 115 (19%) sites were also to be acetylated at the same time. Our succinylated protein data set provides a promising starting point for further functional analysis of succinylation in B. distachyon, which could facilitate the elucidation of the entire metabolic network in the model monocot plant.

Project description:We sequenced mRNA from three independent biological replicates of Staphylococcus epidermidis biofilms with different proportion of dormant cells. Whole trancriptome analysis of Staphylococcus epidermidis biofilms with prevented and induced dormancy.

Project description:We examined the differential gene expression of Staphylococcus epidermidis and Staphylococcus epidermidis in dual species biofilms. Therefore, we performed RNA-Seq on single and dual species biofilms and we compared the gene expression levels in dual species biofilms to those in single species biofilms.

Project description:To investigate potential changes in the provision of competent host defence versus inflammation-induced tissue injury, we used RNA-seq to profile gene signatures in ‘resolving’ and ‘pro-fibrotic’ peritoneal lining tissues. We performed RNA-seq in peritoneal membranes from WT and IL6KO mice challenge with SES - Lyophilized cell-free supernatant prepared from Staphylococcus epidermidis ('resolving') and mice challenged with SES and CD4+ Th1 cells at the same time ('pro-fibrotic'). The peritoneal membrane was harvested at 3h and 6h after the injection.

Project description:Protein posttranslational modifications (PTMs) has been shown to regulate biological processes of human diseases via expanding the genetic code and for regulating cellular pathophysiology, however, the system-wide changes at the PTMs levels in ICH brain remains little known. Given that succinylation is one of the important PTMs in regulating many biological processes. Therefore, in this study, we used a high-resolution mass spectrometry-based, quantitative succinyllysine proteomics approach to firstly investigated the ICH-associated brain protein succinyllysine modifications. We totally identified the concentration of approximately 6000 succinylation events and quantified approximately 3500 sites. Among them, 25 succinyllysine sites on 23 proteins were increased, while 13 succinyllysine sites on 12 proteins were downregulated after ICH. Additionally, the subcellular localization analysis of these significantly changed succinylproteins showed that 58.3% hyposuccinylated proteins were located in the mitochondria, while the percentage of succinylproteins located in mitochondria was decreased to about 35% in ICH brains with concomitant increasing in the percentage of cytoplasm to 30.4%. Further bioinformatic analysis showed that the succinylated proteins were mostly located in mitochondria and synapse-related subcellular spaces, and participate in many pathophysiological processes, such as metabolism, cytoskeleton organization, synapse working and ferroptosis, etc.. Moreover, we performed a combination analysis of our succinylproteomics data with previously published transcriptome data and found that most of the differentially succinylated proteins were distributed into neurons, endothelial cells and astrocytes. In conclusion, our analyses uncover a number of succinylation-affected processes and pathways in ICH brains and provide new insights for understanding ICH pathophysiological processes.