Project description:Achromobacter insolitus strain:AK-COS Genome sequencing and assembly

Project description:Candidatus Thiodiazotropha sp. overview

Project description:Abstract: Chemogenomic fitness assays were combined with a transcriptome analysis to understand both the mode of action and the mechanisms of resistance to Chitosan oligosaccharides (COS). COS are deacetylated chitin compounds, with antimicrobial properties, that are presumed to act by disrupting the cell membrane. The fitness assays identified 39 yeast deletion strains sensitive to COS and 21 suppressors of COS sensitivity. The genes identified encode membrane proteins and members of the protein degradation/ proteosome pathway. The transcriptomes of wild-type and five suppressor strains overexpressing ARL1, BCK2, ERG24, MSG5, or RBA50, were analyzed in the presence and absence of COS. The COS-induced transcriptional response is distinct from previously described environmental stress responses (i.e. thermal, salt, osmotic and oxidative stress) and furthermore, treatment with environmental stressors does not provide resistance to COS. Some of the up-regulated transcripts in the suppressor overexpressing strains exposed to COS included genes involved in transcription, cell cycle, stress response and the RAS signal transduction pathway. Down-regulated transcripts included those encoding protein folding components, and respiratory chain proteins. Overexpression of the ARL1 gene, a member of the Ras superfamily that regulates membrane trafficking, provides protection against COS-induced cell membrane permeability and damage. We found that the ARL1 COS-resistant over-expression strain was as sensitive to amphotericin B, fluconazole and terbinafine as the wild-type (vector control). The gene targets of COS identified in this study suggest that COS’s mechanism of action is different from other commonly studied fungicides, suggesting that COS may be an effective fungicide for drug-resistant fungal pathogens. We selected the 5 overexpressing strains based on the characteristics of the genes. ARL1, encoding a GTPase and is involved in membrane trafficking, was selected since it was observed in the HIP-HOP assay as a sensitive homozygous deletion strain and in the MSP assay as multicopy suppressor. The rest of selected overexpressing strains were BCK2 and MSG5, involved in cell integrity pathways, ERG24 in ergosterol synthesis, and RBA50 in transcription. BCK2 is a Ser-Thr rich protein with protein kinase C activity that acts in signal transduction. Overexpression of BCK2 can rescue defects in yeast cwh43Δ, which displays several cell wall defects [29]. BCK2 overexpression also can suppress a cell lysis defect of mpk1Δ and pck1Δ [30]. MSG5 is also involved in signal transduction. This gene encodes a protein phosphatase involved in cell cycle control through the dephosphorylation of MAPK and is indispensable for restricting the signaling by the cell integrity pathway in yeast [31]. The inhibition of MAPK signaling leads to inhibition of cell differentiation and cell division [32]. The functions of ARL1 and ERG24 and their potential roles in chitosan resistance will be described in more detail in the Discussion. To gain a further understanding on the mode of action and mechanisms of resistance to COS, we performed a transcriptome analysis of the above mentioned five overexpressing strains known to increase resistance to COS-5.44. Each overexpressing strain and the wild type (vector control) were treated with COS-5.44 and RNAs isolated from both treated and untreated cells. The RNAs were converted to labeled cDNA and hybridized to NimbleGen expression microarrays (see Methods).

Project description:Abstract: Chemogenomic fitness assays were combined with a transcriptome analysis to understand both the mode of action and the mechanisms of resistance to Chitosan oligosaccharides (COS). COS are deacetylated chitin compounds, with antimicrobial properties, that are presumed to act by disrupting the cell membrane. The fitness assays identified 39 yeast deletion strains sensitive to COS and 21 suppressors of COS sensitivity. The genes identified encode membrane proteins and members of the protein degradation/ proteosome pathway. The transcriptomes of wild-type and five suppressor strains overexpressing ARL1, BCK2, ERG24, MSG5, or RBA50, were analyzed in the presence and absence of COS. The COS-induced transcriptional response is distinct from previously described environmental stress responses (i.e. thermal, salt, osmotic and oxidative stress) and furthermore, treatment with environmental stressors does not provide resistance to COS. Some of the up-regulated transcripts in the suppressor overexpressing strains exposed to COS included genes involved in transcription, cell cycle, stress response and the RAS signal transduction pathway. Down-regulated transcripts included those encoding protein folding components, and respiratory chain proteins. Overexpression of the ARL1 gene, a member of the Ras superfamily that regulates membrane trafficking, provides protection against COS-induced cell membrane permeability and damage. We found that the ARL1 COS-resistant over-expression strain was as sensitive to amphotericin B, fluconazole and terbinafine as the wild-type (vector control). The gene targets of COS identified in this study suggest that COSM-bM-^@M-^Ys mechanism of action is different from other commonly studied fungicides, suggesting that COS may be an effective fungicide for drug-resistant fungal pathogens. We selected the 5 overexpressing strains based on the characteristics of the genes. ARL1, encoding a GTPase and is involved in membrane trafficking, was selected since it was observed in the HIP-HOP assay as a sensitive homozygous deletion strain and in the MSP assay as multicopy suppressor. The rest of selected overexpressing strains were BCK2 and MSG5, involved in cell integrity pathways, ERG24 in ergosterol synthesis, and RBA50 in transcription. BCK2 is a Ser-Thr rich protein with protein kinase C activity that acts in signal transduction. Overexpression of BCK2 can rescue defects in yeast cwh43M-NM-^T, which displays several cell wall defects [29]. BCK2 overexpression also can suppress a cell lysis defect of mpk1M-NM-^T and pck1M-NM-^T [30]. MSG5 is also involved in signal transduction. This gene encodes a protein phosphatase involved in cell cycle control through the dephosphorylation of MAPK and is indispensable for restricting the signaling by the cell integrity pathway in yeast [31]. The inhibition of MAPK signaling leads to inhibition of cell differentiation and cell division [32]. The functions of ARL1 and ERG24 and their potential roles in chitosan resistance will be described in more detail in the Discussion. To gain a further understanding on the mode of action and mechanisms of resistance to COS, we performed a transcriptome analysis of the above mentioned five overexpressing strains known to increase resistance to COS-5.44. Each overexpressing strain and the wild type (vector control) were treated with COS-5.44 and RNAs isolated from both treated and untreated cells. The RNAs were converted to labeled cDNA and hybridized to NimbleGen expression microarrays (see Methods). Three cDNA biological replicates either with or without a 60 minutes exposure to COS-5.44 for each of the five overexpressing strains as well as an untransformed wild type BY4743 cells (vector control; for a total of 36 samples) were hybridized to NimbleGen 4X72k microarrays (Roche NimbleGen, Inc. Design ID A6186-00-01, TI4932 60mer expr X4).

Project description:The dataset provides the whole proteome of the anammox bacterium "Candidatus Kuenenia Stuttgartiensis" strain CSTR1 growing planctonically in semi-CSTR reactor. The bacteria were growing at high growth rate (0.33 d-1) (reactor HRT 3d).

Project description:To explore the differences on the granulosa cells between the COS and mild ovarian stimulation

Project description:The global transcriptional responses of the adult potato psyllid gut upon infection of the two Candidatus Liberibacter solanacearum (Lso) haplotypes using Illumina sequencing

Project description:HLB is suggested to be caused by the phloem-limited fastidious prokaryotic α-proteobacterium “Candidatus Liberibacter spp.” Previous studies focused on the proteome and transcriptome analyses of citrus 5 to 35-week-after “Ca. L. spp.” inoculation. In this study, gene expression profiles was analyzed using mandarin of Citrus reticulate Blanco cv. jiaogan leaves after 2-year infection with “Ca. L. asiaticus”. The Affymetrix GeneChip® citrus genome were applied to study the molecular pathways mediated by “Ca. L. asiaticus” inoculated 3-year-old jiaogan seedlings. Each of them was graft-inoculated with one sweet orange scions with or without “Ca. L. asiaticus” in Dectember, 2009. RNA samples from three mandarin trees infected with 'Candidatus Liberibacter asiaticus' and three uninfected trees were used for affymatrix genochip

Project description:A novel class of genes has recently been identified as anticancer genes, which upon ectopic overexpression selectively destroy the transformed tumour cells, while leaving the untransformed normal cells unharmed. Examples include TRAIL, PAR4 and Orctl3. We have isolated 16 novel anticancer genes of human origin through a gain of function, forward genetic screen in mammalian cells. Among these, FBLN5 was chosen for further investigation. FBLN5 is a secreted ECM glycoprotein the physiological functions of which remain largely elusive, however it is downregulated in numerous malignancies and Fibln5-/- mice exhibited elastic fibre abnormalities including cutis laxa. When transfected in the normal CV-1 cells and their SV-40 transformed counterpart COS-7 cells, FBLN5 caused extensive cell death in latter and not in the former. In order to investigate such differential effects of FBLN5, we performed transcriptional profiling of COS-7 and CV-1 cells upon FBLN5 transfection where wild type COS-7 and CV-1 cells were used as controls. We conducted exon-level expression profiles of > 540,000 transcripts including coding mRNA, long non-coding RNA, microRNA, novel transcripts and also the alternative splice variants. Briefly, FBLN5 caused downregulation of MYC regulated genes in COS-7 cells while opposite was observed in CV-1 cells. Also, FBLN5 caused upregulation of cell death related genes in COS-7 cells but not in CV-1 cells.

Project description:Citrullus lanatus COS C18_R1 transcriptome Raw sequence reads