Project description:To understand the biosynthesis of C. majus BIAs, we performed de novo transcriptome sequencing of leaf and root tissues of C. majus using Illumina high-throughput sequencing technology.
Project description:Mycobacteria can synthesize NAD+ using either the de novo biosynthesis pathway or the salvage pathway. The deletion of the three genes involved specifically in the NAD+ de novo biosynthesis pathway in the human pathogen Mycobacterium tuberculosis had no effect on the growth of the strain in vivo. In contrast, the same deletion in the bovine pathogen Mycobacterium bovis resulted in a strain that could not grow in vivo and could only grow in vitro with substantial nicotinamide supplmentation. This striking difference was attributed to the known defect in the nicotinamidase PncA of M. bovis, since introducing the M. tuberculosis pncA gene into the M. bovis strain defective for de novo NAD+ biosynthesis restored growth in vitro and in vivo. This study demonstrates that NAD+ starvation is a cidal event in mycobacteria and confirms that enzymes common to the de novo and salvage pathways may be good drug targets. We also propose that simultaneously targeting both the salvage and the de novo NAD+ biosynthesis pathways represents a potentially effective way to treat infection with tubercle bacilli. To characterize the lethality induced by nicotinamide starvation transcriptional profiling of the auxotrophs was performed. Triplicate 50 mL cultures of M. tuberculosis and M. bovis Delta nadABC mutants were grown in 7H9 OADC glycerol 0.05% tween broth in 500 mL roller bottles to an OD600nm= 0.1 in a roller incubator at 37°C. The cells were washed 1x in PBS and resuspended in 50 mL 7H9 OADC glycerol 0.05% tween broth with or without 20mg/L nicotinamide and returned to the incubator. After 7 days, cultures were harvested. Three biological replicates of each of two species with one dye-flip each
Project description:Hermansen2015 - denovo biosynthesis of pyrimidines in yeast
This model is described in the article:
Characterizing selective pressures on the pathway for de novo biosynthesis of pyrimidines in yeast.
Hermansen RA , Mannakee BK , Knecht W , Liberles DA , Gutenkunst RN
BMC Evolutionary Biology. 2015, 15:232
Abstract:
Selection on proteins is typically measured with the assumption that each protein acts independently. However, selection more likely acts at higher levels of biological organization, requiring an integrative view of protein function. Here, we built a kinetic model for de novo pyrimidine biosynthesis in the yeast Saccharomyces cerevisiae to relate pathway function to selective pressures on individual protein-encoding genes.Gene families across yeast were constructed for each member of the pathway and the ratio of nonsynonymous to synonymous nucleotide substitution rates (dN/dS) was estimated for each enzyme from S. cerevisiae and closely related species. We found a positive relationship between the influence that each enzyme has on pathway function and its selective constraint.We expect this trend to be locally present for enzymes that have pathway control, but over longer evolutionary timescales we expect that mutation-selection balance may change the enzymes that have pathway control.
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Project description:Therapeutic strategies to treat acute kidney injury (AKI) are lacking. Preconditioning by hypoxia (HP) and caloric restriction (CR) is highly protective in rodent AKI models. The underlying molecular mechanisms are unknown. A comparative transcriptome analysis after HP and CR identified Kynureninase (KYNU) as a common downstream target. Using a newly generated KYNU-deficient mouse line, we show that KYNU contributes to the protective effect of preconditioning. Metabolome, transcriptome and proteome analyses reveal KYNU as necessary for CR-associated maintenance of nicotinamide adenine dinucleotide (NAD+) levels. Importantly, the impact of CR on the de novo NAD+ biosynthesis pathway can be recapitulated in humans.
Project description:E. coli MG1655 was grown in the presence of either PL (Plumbagin)/JU (Juglone)/ME (Menadione) (50 micro molar) and DMSO (0.75%)as control, and subjected to microarray analysis. The aim of the work was to understand the structure-function relationship between plumbagin and its analogues.
Project description:Mycobacteria can synthesize NAD+ using either the de novo biosynthesis pathway or the salvage pathway. The deletion of the three genes involved specifically in the NAD+ de novo biosynthesis pathway in the human pathogen Mycobacterium tuberculosis had no effect on the growth of the strain in vivo. In contrast, the same deletion in the bovine pathogen Mycobacterium bovis resulted in a strain that could not grow in vivo and could only grow in vitro with substantial nicotinamide supplmentation. This striking difference was attributed to the known defect in the nicotinamidase PncA of M. bovis, since introducing the M. tuberculosis pncA gene into the M. bovis strain defective for de novo NAD+ biosynthesis restored growth in vitro and in vivo. This study demonstrates that NAD+ starvation is a cidal event in mycobacteria and confirms that enzymes common to the de novo and salvage pathways may be good drug targets. We also propose that simultaneously targeting both the salvage and the de novo NAD+ biosynthesis pathways represents a potentially effective way to treat infection with tubercle bacilli. To characterize the lethality induced by nicotinamide starvation transcriptional profiling of the auxotrophs was performed. Triplicate 50 mL cultures of M. tuberculosis and M. bovis Delta nadABC mutants were grown in 7H9 OADC glycerol 0.05% tween broth in 500 mL roller bottles to an OD600nm= 0.1 in a roller incubator at 37°C. The cells were washed 1x in PBS and resuspended in 50 mL 7H9 OADC glycerol 0.05% tween broth with or without 20mg/L nicotinamide and returned to the incubator. After 7 days, cultures were harvested.
Project description:New tools for cell signaling pathway inference from multi-omics data that are independent of previous knowledge are needed. Here we propose a new de novo method, the de novo multi-omics pathway analysis (DMPA), to model and combine omics data into network modules and pathways. DMPA was validated with published omics data and was found accurate in discovering published molecular associations in transcriptome, interactome, phosphoproteome, methylome, and metabolomics data and signaling pathways in multi-omics data. DMPA was benchmarked against module discovery and multi-omics integration methods and outperformed previous methods in module and pathway discovery especially when applied to datasets with low sample sizes. Transcription factor, kinase, subcellular location and function prediction algorithms were devised for transcriptome, phosphoproteome and interactome regulatory complexes and pathways, respectively. To apply DMPA in a biologically relevant context, interactome, phosphoproteome, transcriptome and proteome data were collected from analyses carried out using melanoma cells to address gamma-secretase cleavage-dependent signaling characteristics of the receptor tyrosine kinase TYRO3. The pathways modeled with DMPA reflected the predicted function and its direction in validation experiments.
Project description:5′-phosphoribosyl-5-amino-4-imidazole carboxamide monophosphate (ZMP) is a metabolic intermediate of the de novo purine biosynthesis pathway. Its accumulation in several cell types from bacteria to human is associated with growth impairment. Identification of ZMP-binding proteins was performed to understand the molecular basis of ZMP toxicity. To assess the specificity of ZMP-binding proteins, an affinity chromatography approach was also applied to the closely related molecules AMP, SZMP (Succinyl-ZMP) and AICAR (5-amino-4-imidazole carboxamide ribonucleoside, also named Acadesine).
Project description:In this study, we have performed Illumina based RNA sequencing to characterize the transcriptome and expression profiles of genes expressed in 3 tissues of L. officinale. RNA sequencing and de novo transcriptome assembly of L. officinale resulted in a total of 77,047 unigenes with N50 value as 1524 bps. KEGG pathway and GO enrichment analysis using highly expressed unigenes across three tissues showed active secondary metabolic processes specifically enriched to the root of L. officinale. Expression of identified candidate unigenes for specialized metabolites biosynthesis were consistent with previous reports on accumulation of metabolites across different tissues of L. officinale.