Project description:A Salt stress (100mM) was applied to root tips of Medicago truncatula (Jemalong A17 genotype) for 1h. Microarrays were used to compare the transcriptome of these plants (4 replicates) with the transcriptome of control plants, not submitted to the salt stress (4 replicates)

Project description:What are the gene expressed during meiosis pathway in Arabidopsis thalina. Comparison of total RNAs from isolated meiocytes with those isolated from root tips, and those from leaves. Comparison of transcriptomes of normal stamen (ecotype columbia) with root tips and leaves. And, comparison of transcriptomes of normal stamens (ecotype L. erecta) with stamens from sporocyteless mutant (L. erecta). Keywords: organ comparison

Project description:The aim of this study was to determine the changes in gene expression of rice root tips when they came in to contact with a hard layer (60% wax layer). Three categories of root tips were sampled; tips before the hard layer, tips that had come into contact with the hard layer and root tips which had buckled after coming into contact with the hard layer. Two genotypes (Azucena and Bala) that vary in there ability to penetrate a hard layer were selected for a genotype comparison of gene expression at the hard layer. Keywords: Genotype comparison, root impedance response

Project description:Comparison of Scarecrow mutant Arabidopsis root-tips of 5-day-old plants to those of wildtype.

Project description:What are the gene expressed during meiosis pathway in Arabidopsis thalina. Comparison of total RNAs from isolated meiocytes with those isolated from root tips, and those from leaves. Comparison of transcriptomes of normal stamen (ecotype columbia) with root tips and leaves. And, comparison of transcriptomes of normal stamens (ecotype L. erecta) with stamens from sporocyteless mutant (L. erecta). Keywords: organ comparison 11 dye-swap - CATMA arrays

Project description:Increasing soil salinization has led to severe losses of plant yield and quality. Researching the formation of plant salt tolerance and the molecular mechanism of the salt stress response is therefore urgent. We here take advantage of recent progress in single-cell transcriptomics technology to systematically analyze plant roots response to salt stress, and 57,185 high-quality cells were totally obtained from 5-day-old lateral root tips of Gossypium arboreum under natural growth and different salt-treatment conditions. Eleven cell types with an array of novel marker genes were identified and confirmed with RNA in situ hybridization. Pseudotime analysis on epidermal and root hair cells indicated the differentiation trajectory, and differential root-type cells responding to salt stress resulted in more epidermal and less endodermal cells. Abundant differentially expressed genes (DEGs) were found to be engaged in glycometabolism, reactive oxygen species hemeostasis, and phosphatidylinositol and MAKP signal pathways through functional enrichment analyses. Some candidate DEGs related with transcription factors and plant hormones responding to salt stress were also screened, which requires further functional verification to reveal the regulatory model of the plant roots response to salt stress. Combined with bulk RNA-seq data, a common DEG (Ga08G2497) annotated as Aldo-keto reductase-1 (AKR1) was selected to perform virus-induced gene silencing verification, and the silencing of GaAKR1 gene in G. arboreum resulted in severe stress-susceptibility phenotype, shorter root length, and less number of lateral roots. Physiological and biochemical detection also demonstrated that GaAKR1-silenced plants suffered more serious oxidative damages and, indicating that GaAKR1 might participates in salt tolerance of cotton by oxidation-reduction process. For the first time, we characterized a transcriptional atlas of plant roots under salt stress at a single-cell resolution, which explored the cellular heterogeneity, differential root-type cells, and differentiation trajectory, while providing valuable insights into the molecular mechanism underlying stress tolerance in plants.

Project description:The RETINOBLASTOMA–RELATED (RBR) is a key regulator of cell proliferation and differentiation in plants, and plays an important role in maintenance of the stem cell niche in the root. We used microarray analysis to characterize the transcriptional response of Arabidopsis thaliana root tips from rRBr mutant (7 samples) against Col-0 wild type (6 samples) after 4, 6 and 10 das.

Project description:This experiment was set up in order to identify the (direct) transcriptional targets of the Ethylene Response Factor 115 (ERF115) transcription factor. Because ERF115 expression occurs in quiescent center (QC) cells and strong effects on the QC cells were observed in ERF115 overexpression plants, root tips were harvested for transcript profiling in order to focus on root meristem and QC specific transcriptional targets. Wild-type (Col-0 ecotype), erf115 mutant (SALK_021981) and ERF115 overexpressing (p35S:ERF115 ORF) root tips (three replicates each) were harvested and subjected to transcript profiling, using the Col-0 samples as control reference.

Project description:The plant hormone gibberellin (GA) represents an important regulator of growth and development. Early transcriptional events controlled by GA are not well characterised. Previous microarray studies have identified genes responsive to GA treatment in the whole seedling. The whole seedling represents many tissues where subtle effects of GA treatment in specific tissues may be masked. When treated with GA, an effect on the growth rate of roots was observed. More specifically, the shorter root of a GA-deficient plant can be rescued to wild-type length by the application of GA. This experiment was designed to identify GA-regulated genes in the root tips of Arabidopsis. The use of a GA-deficient mutant provides a greater potential to identify genes responding to GA treatment. Root tips are ideally suited for the quick uptake of the hormone treatment. There will be two biological replicates which will each consist of a control treatment at 0 minutes and 2 hours, as well as the experimental GA-treated 2 hour time point. This system provides an opportunity to compare gene expression between treated and non-treated root tips and allow the identification of early GA-responsive genes.

Project description:To investigate the role of AGO10 in the buffering of cytokinin responses we grew the ago10-1 mutant and the Col-0 wildtype on plates for six daysbefore treting with mock solution or cytokinin for 2 hours. Then root tips excised and RNA was extracted using a commercial kit.