Project description:Transcriptomic analysis of gene expression during the differentiation of cell suspension cultures into tracheary elements using the biological system published by Pesquet et al., Current Biology (2010): tracheary element differentiation was triggered by externally supplying hormone-free habituated cell suspension cultures of Arabidopsis thaliana Col-0 with auxin, cytokinin and epibrassinolides; RNA samples extracted from 3 independent time-courses every 12h from 0h to 4 days were analyzed using ATH1 Arabidopsis Affymetrix micro-array Time-course design during tracheary element differentiation (3 independepent time-course were harvested from initiation 0h to 4 days every 12h) - total of 27 samples corresponding to the 3 replicates of 9 time point time-courses - gene expression was monitored along the time-course compared to 0h
Project description:Transcriptomic analysis of gene expression during the differentiation of cell suspension cultures into tracheary elements using the biological system published by Pesquet et al., Current Biology (2010): tracheary element differentiation was triggered by externally supplying hormone-free habituated cell suspension cultures of Arabidopsis thaliana Col-0 with auxin, cytokinin and epibrassinolides; RNA samples extracted from 3 independent time-courses every 12h from 0h to 4 days were analyzed using ATH1 Arabidopsis Affymetrix micro-array
Project description:The douple mutant Arabidopsis thaliana soc1 ful, in contrast with WT, produces an interfascicular cambium and a large wood cylinder is the flowering stem. We present the RNAseq data for polyA mRNA of different developmental stages of cambium and wood formation in Arabidopsis thaliana. We sequenced 7 stages; 4 in the woody mutant soc1-6 ful-7 (herbaceous, cambium initiation, wood initiation and leaf) and 3 stages in the WT Col-0 (herbaceous, cambium and leaf). The corresponding stem anatomy is also presented in the manuscript indicating the stage of cambium development and the production of secondary xylem.
Project description:This experiment was annotated by TAIR (http://arabidopsis.org). Col-0 suspension cells provided by Dr. C. Koncz and Dr. M. Umeda. 15 ml of Arabidopsis Col-0 suspension cells (Mathur et al. 1998) was transferred to 35 ml of a fresh modified Murashige and Skoog (MS) medium supplemented with 1 ug /ml 2,4-dichlorphenoxyacetic acid and 3% sucrose every 7 day, and cultured on a rotary shaker at 120 rpm in the dark at 22 C for subculture. For xylem vessel element induction, a 7.5 ml aliquot of 7-day-old subcultured cells was transferred into 42.5 ml of fresh medium that included 1 uM brassinolide and 10 mM H3BO3, and cultured as described above. The frequency of xylem vessel element formation was calculated as the proportion of xylem vessel elements to the number of living cells and the vessel elements. Experimenter name = Hiroo Fukuda Experimenter phone = +81-3-5841-4463 Experimenter fax = +81-3-5841-4462 Experimenter department = H Fukuda Laboratory Experimenter institute = University of Tokyo Experimenter address = Department of Biological Science Experimenter address = 2nd Buil. Experimenter address = Hongo 7-3-1, Bunkyo-ku Experimenter zip/postal_code = Tokyo 113-0033 Experimenter country = Tokyo Keywords: compound_treatment_design; time_series_design;
Project description:This experiment was annotated by TAIR (http://arabidopsis.org). Col-0 suspension cells provided by Dr. C. Koncz and Dr. M. Umeda. 15 ml of Arabidopsis Col-0 suspension cells (Mathur et al. 1998) was transferred to 35 ml of a fresh modified Murashige and Skoog (MS) medium supplemented with 1 ug /ml 2,4-dichlorphenoxyacetic acid and 3% sucrose every 7 day, and cultured on a rotary shaker at 120 rpm in the dark at 22 C for subculture. For xylem vessel element induction, a 7.5 ml aliquot of 7-day-old subcultured cells was transferred into 42.5 ml of fresh medium that included 1 uM brassinolide and 10 mM H3BO3, and cultured as described above. The frequency of xylem vessel element formation was calculated as the proportion of xylem vessel elements to the number of living cells and the vessel elements. Experimenter name = Hiroo Fukuda; Experimenter phone = +81-3-5841-4463; Experimenter fax = +81-3-5841-4462; Experimenter department = H Fukuda Laboratory; Experimenter institute = University of Tokyo; Experimenter address = Department of Biological Science; Experimenter address = 2nd Buil. Experimenter address = Hongo 7-3-1, Bunkyo-ku; Experimenter zip/postal_code = Tokyo 113-0033; Experimenter country = Tokyo Experiment Overall Design: 12 samples were used in this experiment
Project description:Transcriptional profiling after inhibition of cellulose synthesis by thaxtomin A and isoxaben in Arabidopsis thaliana suspension cells Perturbations in the cellulose content of the plant cell wall lead to global modifications in cellular homeostasis, as seen in cellulose synthase mutants or after inhibiting cellulose synthesis. In particular, application of inhibitors of cellulose synthesis such as thaxtomin A (TA) and isoxaben (IXB) initiates a programmed cell death (PCD) in Arabidopsis thaliana suspension cells that is dependent on de novo gene transcription. To further understand how TA and IXB activate PCD, a whole genome microarray analysis was performed on mRNA isolated from Arabidopsis suspension cells exposed to TA and IXB. More than 75% of the genes upregulated by TA were also upregulated by IXB, including genes encoding cell wall-related and calcium-binding proteins, defence/stress-related transcription factors, signalling components and cell death-related proteins. Comparisons with published transcriptional analyses revealed an important subset of genes generally induced in response to various biotic and abiotic stress.