Project description:In this study, we compared the siliques from Arabidopsis thaliana under salt stress (Ss) with those in the control (Cs). The results showed that Khib was abundant in siliques. However, there were certain significant differences between the Ss and the Cs: Totally 3,810 normalized Khib sites on 1,254 proteins were identified in siliques under salt stress, and Khib was up-regulated at 96 sites on 78 proteins while down-regulated at 282 sites on 205 proteins in Ss silique. Among them, 13 proteins, including F4IVN6, Q9M1P5, and Q9LF33, had sites with the most significant regulation Khib modification. Bioinformatics analysis suggests that Khib mainly participates in glycolysis/gluconeogenesis and endocytosis. In particular, there were 117 Khib-modified proteins that were mapped to the protein interaction database, and the proteins with the most significant up-regulation of Khib sites were on P46422, O82514, Q38970, Q9LD57, and Q9STW6, while the most down-regulated sites were on Q9M9K1, Q9SF16, O24456, P83484, Q9FWA3, and P54609. In the KEGG pathway enrichment analysis, Khib-modified proteins were enriched in several pathways related to energy metabolism, including gluconeogenesis pathway, pentose phosphate pathway, and pyruvate metabolism.

Project description:Lysine 2-hydroxyisobutyrylation (Khib) is a newly discovered post-translational modification in some prokaryotic and eukaryotic organisms. Here, we carried out proteome-wide analysis of Khib in Fusarium graminearum, identifying the reshaping of lysine 2-hydroxyisobutyrylome by tebuconazole or carbendazim, using the most recently-developed high-resolution LC-MS/MS in combination with high-specific affinity enrichment. In total, 3035 quantifiable Khib sites on 937 proteins were identified. With the criteria of fold changes over 1.3, normalized with total proteins, 1083 Khib sites of 509 proteins were considered as significantly affected by tebuconazole treatment, while 344 Khib sites of 227 proteins were significantly affacted by carbendazim. Furthermore, bioinformatics analysis were conducted.

Project description:This study investigated whether mitochondria-targeted peptide SS-31 played a protective role in cigarette smoke (CS)-induced airway inflammation and oxidative stress in mice. Mice were exposed to CS for 4 weeks to establish a CS-induced airway inflammation model, then treated with SS-31. Pathological changes and oxidative stress in lung tissue, inflammatory cell counts and pro-inflammatory cytokines in bronchoalveolar lavage fluid (BALF) were examined. RNA sequencing from lung tissue and western blotting were conducted to investigate mechanisms. SS-31 attenuated CS-induced inflammatory injury of the airway. Numbers of total cells, neutrophils, and macrophages and levels of tumor necrosis factor α, interleukin 6, and matrix metallopeptidase 9 in BALF were markedly reduced by SS-31. SS-31 attenuated CS-induced oxidative stress by decresing malondialdehyde and myeloperoxidase levels, and increasing superoxide dismutase activity. It also reversed the expression of mitochondrial fission protein and optic atrophy 1 protein, and reduced cytochrome c release into the cytosol. RNA sequencing revealed that SS-31 changed CS-induced expression profiles and enriched MAPK pathway, western blotting confirmed that SS-31 inhibited the CS-activated MAPK pathway. SS-31 alleviates CS-induced airway inflammation and oxidative stress, possibly via the regulation of mitochondrial function and MAKP pathway, SS-31 may be a novel drug for CS-induced airway disorders.

Project description:Post-translational modifications (PTMs) are considered to be an important factor in the pathogenesis of SLE. Lysine 2-hydroxyisobutyryl (Khib), as an emerging post-translational modification of proteins, is involved in some important biological metabolic activities. We compared the Khib levels of SLE patients and healthy controls based on liquid chromatography-tandem mass spectrometry, and then performed proteomic analysis. The results showed that Khib in SLE patients was up-regulated at 865 sites of 416 proteins and down-regulated at 630 sites of 349 proteins. The site abundance, distribution and function of Khib protein were further analyzed. Bioinformatics analysis showed that complement, coagulation cascade and platelet activation in immune-related pathways were significantly enriched, indicating that the differential modification proteins between them might affect SLE.

Project description:Candida albicans is the most common human fungal pathogen, causing diseases ranging from mucosal to systemic infections for both immunocompetent and immunocompromised individuals. Lysine 2-hydroxyisobutyrylation is a highly conserved posttranslational modification found in a wide variety of organisms. In this study, we survey the biological impact of 2-hydroxyisobutyrylation on lysine residuals (Khib) in C. albicans. Using an antibody-enrichment approach along with the traditional LC-MS/MS method, the pattern of Khib-modified proteins and sites were analyzed in one wild type strain of C. albicans. We identified 1438 Khib-modified proteins with 6659 modified sites in this strain, and a more detailed bioinformatics analysis indicated that the Khib-modified proteins are involved in a wide range of cellular functions with diverse subcellular locations. Functional enrichment analysis featured several prominent functional pathways, including ribosome, biosynthesis of antibiotics, biosynthesis of secondary metabolites, biosynthesis of amino acids and carbon metabolism – of which the ribosome pathway is the most affected pathway. Even when compared with the reported lysine acetylation (Kac) and succinylation (Ksuc), the Khib-modified sites on ribosomal proteins remained the highest for C. albicans. These bioinformatic results suggest that 2-hydroxyisobutyrylation may play an indispensable role in the regulation of the ribosomal biogenesis and protein translation. Confirmation at the biochemical level would enable us to resolve physiological and pathogenic roles of PTM in C. albicans.

Project description:Systemic lupus erythematosus (SLE) is a complex autoimmune disease that affects multiple organs. Protein lysine modifications play important roles in gene regulation, transcription, metabolism and other biological processes. The lysine 2-hydroxyisobutyrylation(Khib) histone mark has recently been discovered as a novel protein modification. Utilizing antibody-based affinity enrichment and nano-HPLC/MS/MS analyses of Khib peptides, we identified 156 upregulated proteins(fold change>1.5),124 downregulated proteins(fold change<1/1.5), including 220 Khib sites that were upregulated and 187 Khib sites that were downregulated. Our data demonstrate that proteins with Khib sites were localized in the cytoplasm. Functional enrichment analysis revealed that proteins with Khib sites are broadly involved in a wide range of biological processes, cellular components and molecular functions. The 03010 Ribosome pathways may exert important influence on the SLE pathogenic mechanism, according to a KEGG analysis. The functional analysis of Khib is of value for important future investigations of SLE pathogenesis.

Project description:Lysine 2-hydroxyisobutyrylation (Khib) is a novel naturally occurring PTM, which is firstly discovered in histone. The system Khib detection at proteomics level has been performed in various species and tissues for the function and role characterization of Khib in biological activities. However, the Khib study in plant species is relatively less and the plant leaf, one of the critical plant organ, haven’t been studied. In the present study, the first root tissues lysine 2-hydroxyisobutyrylome analysis was performed in soybean specie with antibody immunoprecipitation affinity and high resolution mass spectrometry-based proteomics. Bioinformatics analyses including function classification, subcellular location predication, gene ontology enrichment and pathway enrichment were conducted to demonstrate the roles of these Khib sites and proteins in soybeanleaf.

Project description:To provide a global study of transcriptome changes under drought stress, the gene expression levels of a durum wheat genotype (Triticum durum Desf. cultivar Creso) and two bread wheat genotypes (Triticum aestivum L. cultivar Chinese Spring -CS- and its deletion line CS_5AL-10) were investigated. The 5A chromosome deletion line (5AL-10) lacks the distal part (43%) of the long arm of chromosome 5A. Each genotype was subjected to two different levels of water stress at the grain filling stage. After anthesis, three different levels of soil water content (SWC) were induced as described below: control (CTRL; SWC=28%), moderate stress (MS; SWC=18%), and severe stress (SS; SWC=12.5%). For each sample, three biological replicates were performed, for a total of 27 hybridizations. ****[PLEXdb(http://www.plexdb.org) has submitted this series at GEO on behalf of the original contributor, Alessio Aprile. The equivalent experiment is TA23 at PLEXdb.] genotype: Creso - stress condition: Control(3-replications); genotype: Creso - stress condition: Mild stress(3-replications); genotype: Creso - stress condition: Severe stress(3-replications); genotype: CS - stress condition: Control(3-replications); genotype: CS - stress condition: Mild stress(3-replications); genotype: CS - stress condition: Severe stress(3-replications); genotype: CS-5AL - stress condition: Control(3-replications); genotype: CS-5AL - stress condition: Mild stress(3-replications); genotype: CS-5AL - stress condition: Severe stress(3-replications)

Project description:Background. The Dahl salt-sensitive (SS) rat is an established model of salt-sensitive hypertension and renal damage. Recently, sodium-independent dietary effects were shown to be important in the development of the SS hypertensive phenotype. Compared to Dahl SS/JrHsdMcwi (SS/MCW) rats fed a purified diet (AIN-76A), grain-fed Dahl SS/JrHsdMcwiCrl rats (SS/CRL; Teklad 5L2F) were less susceptible to salt-induced hypertension and renal damage. Methods. With the known role of the immune system in hypertension, the present study characterized the immune cells infiltrating SS/MCW and SS/CRL kidneys. To further identify distinct molecular pathways between SS/MCW and SS/CRL, transcriptomic analysis was performed via RNA sequencing in T-cells isolated from the blood and kidneys of low and high salt-fed rats. Results. Following a 3-week high salt (4.0% NaCl) challenge, SS/CRL rats were protected from salt-induced hypertension (116.5±1.2 vs 141.9±14.4 mmHg) and albuminuria (21.7±3.5 vs 162.9±22.2 mg/day) compared to SS/MCW. Additionally, the absolute number of immune cells infiltrating the kidney was significantly reduced in SS/CRL. RNA-seq revealed >50% of all annotated genes in the entire transcriptome to be significantly differentially expressed in T-cells isolated from blood versus kidney. Pathway analysis of significant differentially expressed genes between SS/MCW and SS/CRL renal and circulating T-cells demonstrated salt-induced changes in genes related to inflammation in SS/MCW compared to metabolism-related pathways in SS/CRL. Conclusions. These functional and transcriptomic T-cell differences between SS/MCW and SS/CRL show that sodium-independent dietary effects may influence the immune response and infiltration of immune cells into the kidney, ultimately impacting susceptibility to salt-induced hypertension and renal damage.

Project description:Lysine 2-hydroxyisobutyrylation (Khib) is an evolutionary conserved and widespread protein posttranslational modification (PTM) that has diverse cellular functions. Recently, it has been demonstrated that Khib can be regulated by p300 and Tip60. Although the specific Khib substrates mediated by p300 has been revealed, how Tip60 regulates diverse cellular processes through the Khib pathway and the different roles between Tip60 and p300 towards regulating Khib remains largely unknown, which hinders our understanding of the mechanisms by which this modification exerts its biological functions. Here we report the first Khib proteome mediated by Tip60. A total of 2999 unique Khib sites on 956 proteins were identified. Among them, 397 Khib sites from 322 proteins presented only in Tip60 overexpressing cells and 10 Khib sites increased greater than 2-fold in response of Tip60 overexpression, indicating that Tip60 significantly affected global Khib . Surprisingly, only 5 of the 407 Tip60-targeted Khib sites overlapping with the 149 known p300-targeted Khib sites, indicating that Tip60 and p300 have different substrate preference for Khib. In addition, the Khib substrates regulated by Tip60 are deeply involved in processes such as mRNA translation and protein co-folding, and some are associated with diseases such as Parkinson. Together, this study reveals the Khib substrates in response to Tip60, which elucidates the role of Tip60 in regulating various cellular processes through Khib pathway, and provides new insights into functional mechanism of Tip60.