Project description:Transcriptome of D. shibae 5 h in the light after 12 days in co-culture with the dinoflagellate P. minimum. Two biological replicates.

Project description:Comparison of the transcriptome of D. shibae 5 h in the light versus 5 h in the dark after 12 days in co-culture with the dinoflagellate P. minimum. Two biological replicates of each condition are compared.

Project description:Transcriptome of D. shibae 5 h in the light after 18,24 and 30 days in coculture with the dinoflagellate P. minimum two biological replicates

Project description:Background: Comparison of temporal gene expression profiles (www.jenage.de) The RNA-seq data comprises 5 age groups: 5,12,20,27,39 weeks 25 samples: 5 biological replicates for each age group

Project description:To evaluate what genes are under the transcriptional control of LysG(Mt), a whole genome differential gene expression analysis of Wt Mt (Wt_Mtb) and del_ysG(1985c) was done, based on RNA-seq. Both were grown in a minimal medium supplemented with either 5 mM lysine, 10 mM ammonium or 3.34 mM histidine as sole nitrogen source. TruSeq Stranded mRNA Library Prep Kit from (Illumina, (San Diego, CA, USA) was used to prepare the cDNA libraries to analyze the whole transcriptome. An additional library was prepared from a pool of all isolated RNA according to the protocol of Pfeifer-Sancar et al. focusing on native 5'-ends of transcripts.

Project description:Background: Microorganisms are the major cause of food spoilage during storage, processing and distribution. Pseudomonas fluorescens is a typical spoilage bacterium that contributes to a large extent to the spoilage process of proteinaceous food. RpoS is considered an important global regulator involved in stress survival and virulence in many pathogens. Our previous work revealed that RpoS contributed to the spoilage activities of P. fluorescens by regulating resistance to different stress conditions, extracellular acylated homoserine lactone (AHL) levels, extracellular protease and total volatile basic nitrogen (TVB-N) production. However, RpoS-dependent genes in P. fluorescens remained undefined. Results: RNA-seq transcriptomics analysis combined with quantitative proteomics analysis basing on multiplexed isobaric tandem mass tag (TMT) labeling was performed for the P. fluorescens wild-type strain UK4 and its derivative carrying a rpoS mutation. A total of 375 differentially expressed genes (DEGs) and 212 differentially expressed proteins (DEPs) were identified in these two backgrounds. The DGEs were further verified by qRT-PCR tests, and the genes directly regulated by RpoS were confirmed by 5’-RACE-PCR sequencing. The combining transcriptome and proteome analysis revealed a role of this regulator in several cellular processes, including polysaccharide metabolism, intracellular secretion and extracellular structures, cell well biogenesis, stress responses, ammonia and biogenic amine production, which may contribute to biofilm formation, stress resistance and spoilage activities of P. fluorescens. Moreover, in this work we indeed observed that RpoS contributed to the production of the macrocolony biofilm’s matrix.

Project description:After the prophages of the Vibrio natriegens strain were deleted, RNA-seq experiments were conducted to obtain DGE-profiles in the presence and absence of the two prophages VNP1 and VNP2 in the exponential growth phase.

Project description:Treatment of stationary growth phase Staphylococcus aureus SA113 with 100-fold of the MIC of the lipopeptide antibiotic daptomycin leaves alive a small fraction of drug tolerant albeit genetically susceptible bacteria. This study shows that cells of this subpopulation exhibit active metabolism even hours after the onset of the drug challenge. Isotopologue profiling using fully 13C-labeled glucose revealed de novo biosynthesis of the amino acids Ala, Asp, Glu, Ser, Gly and His. The isotopologue composition in Asp and Glu suggested an increased activity of the TCA cycle under daptomycin treatment compared to unaffected stationary growth phase cells. Microarray analysis showed differential expression of specific genes 10 minutes and 3 hours after addition of the drug. Besides factors involved in drug response, a number of metabolic genes appear to shape the signature of daptomycin-tolerant S. aureus cells. These observations will be useful towards the development of new strategies against persisters and related forms of bacterial cells with downshifted physiology. Altogether 12 samples were analysed. Bacteria were treated with Daptomycin and samples were taken 10 minutes (3 replicates) and 3 hours later (3 replicates). For each time-point untreated cultures were sampled as controls (3 replicates for each time-point).

Project description:Mangrove-derived Streptomyces xiamenensis 318, with a relatively compact genome and simpler secondary metabolism, is used as model organism in our investigation. We performed integrated studies of metabolic dynamical modeling, transcriptome level measurements, and metabolic profiling experiments on this strain. To explore the relationship between primary and secondary metabolism, the global gene expression levels of strain 318 from early stationary phase to late stationary phase were compared by RNAseq analysis at 16 hour, 24 hour, 36 hour and 72 hour after batch culture started.

Project description:Fungal infections are a serious health problem in the clinic especially in the immunocompromised patient. Disease ranges from widespread superficial vulvovaginal infections to life-threatening systemic candidiasis. Especially for systemic mycoses only a limited arsenal of antimycotica are available, including azoles, polyenes, echinocandines and amphothericin B. Due to emerging resistance to standard therapy and significant side effects for some antimycotica there is a medical need for new antifungals in the clinic and general practice. In order to expand the arsenal of compounds with antifungal activities we screened compound libraries, including combinatorial libraries as well as more than 30 000 pure compounds derived from organic synthesis for antimycotic activity. In total more than 100 000 compounds were screened using an innovative AS (activity-selectivity) assay analyzing both the antifungal activity and the compatability with human cells at the same time. One promising hit, a Benzimidazol-2-yl-alkylamine derivative, was developed in a series of lead compounds showing potent antifungal activity. ((1S)-1-[1-(3-chlorobenzyl)-1H-benzimidazol-2-yl]-2-methylpropyl-amine) (EMC120B12) showed the highest antifungal activity and best compatability with human cells in several cell culture models and against a number of different yeasts and clinical isolates. Transcriptional profiling indicates that the newly discovered compound is a potential inhibitor of the ergosterol-pathway. In total, three biological replicates were performed. All experiments were performed as dye swaps. Thus, in total six arrays have been hybridzed. Hybridization experiments included an untreated reference sample and a sample of cells treated with ((1S)-1-[1-(3-chlorobenzyl)-1H-benzimidazol-2-yl]-2-methylpropyl-amine) (EMC120B12). The array included one technical replicate of each probe.