Project description:Cystic fibrosis (CF) mouse models exhibit exocrine pancreatic function yet do not develop adipose stores to the levels of non-CF mice. CF mice homozygous for the Cftr mutation (F508del) at 3 weeks (post-weaning) and 6 weeks (young adult) of age had markedly less adipose tissue than non-CF mice. Both 3- and 6-week old mice had dietary lipid absorption and fecal lipid excretion comparable to non-CF controls. Fractional hepatic de novo synthesis of palmitate and stearate (de novo lipogenesis, DNL) as determined by deuterium incorporation was reduced in CF mice. At 3 weeks of age, F508del mice had significantly decreased DNL of palmitate and stearate, by 83% and 80%, respectively. By 6 weeks of age, DNL rates in non-CF mice remained unchanged as compared to 3-week old mice, while DNL rates of F508del mice were still reduced, by 33% and 40%, respectively. Adipose tissue fatty acid profiles were comparable in CF and non-CF mice, indicating that adipose differences are quantitative, not qualitative. A correspondingly lower content of deuterium-labeled fatty acids was found in CF adipose tissue, consistent with reduced deposition of newly made hepatic triglycerides and/or decreased adipose tissue lipogenesis. Hepatic transcriptome analysis revealed lower mRNA expression from several genes involved in fatty acid biosynthesis, suggesting down-regulation of several enzymes in fatty acids synthesis as a mechanism for the reduced lipogenesis. These novel data provide a model for altered fat and fatty acid metabolism in CF, independent of malabsorption, and may partly explain the inability of pancreatic enzyme replacement therapy to completely restore normal body mass to CF patients ∆F508 CF mice and its WT littermates (3-weeks old females, C57BL/6J) were examined. RNA extracted from snapped-frozen livers, 4 replicates per genotype.

Project description:Aspergillus fumigatus is a filamentous fungus capable to cause an important disease known as invasive aspergillosis. Challenge different cell lines is a crucial strategy to undercover new virulence factors involved in the infection process. In this research, RAW 264.7 macrophages and A549 lung epithelial cells were challenge using A. fumigatus conidia in a MOI of 10 and 5 respectively. When these conidia reach 30% of germination, the total RNA was isolated (A. fumigatus alone (Control), A. fumigatus vs RAW 264.7, and A. fumigatus vs A549) and purified using the RNeasy Plant Mini Kit (Qiagen). The AWAFUGE (Agilent Whole A. fumigatus Genome Expression 44K v.1) hybridization was carried out following previously publish protocols (A-MEXP-2352 and E-MTAB-5314).

Project description:RNA-seq (Illumina) sequencing was performed to generate gene expression data of H. perforatum. We generated genome-wide gene expresssion data from in vitro cell suspensions and shoot cultures of H. perforatum.

Project description:We are interested in understanding how plants respond to cell wall stress. The stress is created through inhibition of cellulose biosynthesis. Isoxaben is a drug that inhibits cellulose biosynthesis in a dose dependent manner. We used a concentration of 600 nM isoxaben which should inhibit appr. 80% of cellulose biosynthesis. We performed a time course experiment where seedlings were treated for 36h with isoxaben and in parrallel untreated seedlings were grown. At 8 different timepoints treated and untreated samples were harvested.

Project description:Investigation of whole genome gene expression level changes in F. verticillioides FRC M-3125 when exposed to 50 ug/ml 2-benzoxazolinone (BOA). Cultures were harvested two hours after exposure. Assessed in reference to control cultures of M-3125 exposed to ethanol (1% final concentration) since BOA was dissolved in ethanol. A four chip study using total RNA recovered from two separate control cultures of F. verticillioides FRC M-3125 in PDB containing 1% ethanol and two separate experimental cultures of M-3125 grown in PDB plus the added treatment of 50 ug/ml ethanolic BOA. The cultures were incubated for two hours on a rotary shaker (200 rpm) at 27C in the dark and then harvested by vacuum filtration and frozen in liquid nitrogen. The chips were a F. verticillioides custom 14K array based on platform GPL14669.

Project description:Organisms cope with physiological stressors through acclimatizing mechanisms in the short-term, and through adaptive mechanisms over evolutionary timescales. Whereas the former offer a consistent and largely predictable buffer against stressors, myriad paths of adaptation are often possible. Our work examined whether knowledge of acclimatizing responses could be informative ofM-BM- aspects of future adaptation, using as a model system a strain of Methylobacterium extorquens AM1 that was experimentally engineered and then evolved with a novel central metabolism. The engineered strain is markedly slower and less fit than wild-type, which is reflected in microarray analyses by hundreds of genes with differential expression, and also altered levels NAD(P)(H) metabolites. Yet after 600 generations of evolution in the lab, eight replicate populations founded from an engineered ancestor showed substantial but variable improvements in growth using the engineered metabolic pathway. Using information from wild-type, engineered, and adapted physiological states, we determined the extent to which physiological processes were restored, unrestored, reinforced, or novel after experimental evolution. Overall, we found that the vast majority of gene expression perturbations from the engineered strain are restored to wild-type like conditions after experimental evolution but were accompanied by a modest number of unrestored processes, varying instances of novel expression, and a few rare instances where expression changes from acclimation were reinforced through adaptive evolution. One such example was in the reinforced up-regulation of pntAB transhydrogenase, whose increased expression and activity correlated with the restoration of NAD(P)(H) metabolism towards wild-type levels and with increased growth rate in the evolved lineages. Thus, while trajectories of physiological adaptation may still be difficult to predict a priori, our results demonstrate that information from acclimatizing responses can provide a M-bM-^@M-^\directionM-bM-^@M-^] to hypothesize which changes in physiology arose as a consequence of adaptation versus those that may have caused itM-BM- . Single-color microarray hydridization of total RNA isolated from mid-exponentially grown cultures of wildtype, engineered, and eight experimentally evolved populations of Methylobacterium extorquens AM1, each represented by three biological replicates

Project description:Profiling the transcriptome of Arabidopsis suspension cells in response to a range of abiotic treatments. Experiment Overall Design: variable_1 = 3 h Experiment Overall Design: variable_2 = 12 h Experiment Overall Design: variable_3 = untreated, control Experiment Overall Design: variable_4 = hydrogen peroxide Experiment Overall Design: variable_5 = N2 air replacement Experiment Overall Design: variable_6 = chitin Experiment Overall Design: variable_7 = cold Experiment Overall Design: variable_8 = cysteine Experiment Overall Design: variable_9 = flagellen Experiment Overall Design: variable_10 = mannitol Experiment Overall Design: variable_11 = norflurazon Experiment Overall Design: variable_12 = oligomycin 0.125 uM Experiment Overall Design: variable_13 = oligomycin 1.25 uM Experiment Overall Design: variable_14 = roteonone Experiment Overall Design: variable_15 = salicylic acid 10 uM Experiment Overall Design: variable_16 = salicylic acid 100 uM Experiment Overall Design: variable_17 = chloramphenicol

Project description:A genome wide microarray platform containing the predicted coding sequences (putative genes) for the ciliated protozoan Tetrahymena thermophila is described, validated and used to study gene expression in growing, starved and conjugating cells. Of the ~27,400 predicted open reading frames in Tetrahymena, transcripts homologous to 5876 are not detectable in one or more of these life cycle stages, indicating that this organism does indeed contain a large number of functional genes. Transcripts from over 5000 predicted genes are expressed at levels 5X background and 95 genes are expressed at 250X background in all stages. Transcripts homologous to 94 predicted genes are specifically expressed and 155 more are highly up-regulated in growing cells, and 90 are specifically expressed and 616 are up-regulated during starvation. Strikingly, transcripts homologous to 1073 predicted genes are specifically expressed and 1753 are significantly up-regulated during conjugation. The patterns of gene expression during conjugation correlate well with the previously described developmental stages of meiosis, nuclear differentiation and DNA elimination. Genes encoding proteins known to be complexed show similar expression patterns, indicating that co-ordinate expression with putative genes of known function should identify new genes with related functions. Keywords: growth (three cell densities); Starvation (seven time points); Conjugation (ten time points) For growth, CU428 cells at low, medium and high cell densities (~100Kcells/ml, ~350Kcells/ml and ~1000Kcells/ml; referred to as L-l, L-m and L-h) were collected. For starvation, CU428 cells were starved at 2x105 cells/ml in 10 mM Tris (pH 7.5) for 3, 6, 9, 12, 15 and 24 hours （referred to as S-0, S-3, S-6, S-9, S-12, S-15 and S-24. For conjugation, B2086 and CU428 cells that had been starved for 18 hours were resuspended in 10 mM Tris (pH 7.5) at 2x105 cells/ml, mixed, and samples were collected at 2, 4, 6, 8, 10, 12, 14, 16, 18 hours after the mixture （referred to as C-0, C-2, C-4, C-6, C-8, C-10, C-12, C-14, C-16 and C-18). For each growing and starved Tetrahymena sample, hybridizations were performed on three independent microarrays (e.g. L1, L2 and L3; S1, S2 and S3). For analysis of conjugation, hybridizations were performed on two independent microarrays (e.g. C1 and C2). Each individual microarray represents a separate experiment; total RNA was isolated from independent cell cultures then independently labeled and hybridized.

Project description:Detailed analysis of genome-wide transcriptome profiling in rice root is reported here, following Cr-plant interaction. Such studies are important for the identification of genes responsible for tolerance, accumulation and defense response in plants with respect to Cr stress. Rice root metabolome analysis was also carried out to relate differential transcriptome data to biological processes affected by Cr (VI) stress in rice. The rice variety IR-64 was germinated and allowed to grow for 5 d at 37 C and then transferred to Hewitt solution for growth. After 10 d of growth, seedlings of uniform size and growth were treated with 100 µM of Cr (VI), As (V), Cd, and Pb under standard physiological conditions of 16 h light (115 μmol m−2 s−1) and 8 h dark photoperiod at 25 ± 2 C for 24 h. Total RNA was extracted from the treated rice roots and microarray was performed using one-cycle target labeling and control reagents (Affymetrix platform).

Project description:Whole genome transcriptional responses is profiled in the 0 & 120 mM NaCl stressed whole seedlings of four indica (Pokkali, PSBRc50, IR 58, BRRI dhan 29), two Japonica (Banikat, Nipponbare) and two wild (O. latifolia, O. Rufipogon) accessions of rice (that showed varied level of tolerance to salt stresses) to identify the salinity induced transcripts. Stress was imposed on 14 day old seedlings and total RNA from the whole seedlings was collected after 48 h of stressed period (i.e., from 16 day old seedlings). These data sets were used for two different analyses. Firstly, the gene expression responses of eight rice genotypes was interrogated by the weighted continuous morpho-physiological trait responses (on a scale of 0 to 1) using a modified version of the â??Significance Analysis of Microarraysâ?? (SAM) to identify the genes whose expression changes significantly and which is relative to the changes in morpho-physiological traits over these rice genotypes. Secondly, the differentially expressed significant salinity induced genes were also identified in the tolerant and in the susceptible genotypes using Gene-spring software. The genes that enriched the important biological processes and molecular functions (as identified by Gene Ontology: Singular enrichment analysis) are discussed in a way to explain the roles of these genes in overall stress adaptation mechanism. Fourteen day old whole seedlings of 8 rice genotypes were treated with 0 & 120 mM NaCl stress for 48 hours each with three replications and the gene expressions were measured using Agilent Rice Gene Expression 4x44K Microarray.