Project description:In this study, we performed the first large-scale nuclear proteome analysis of wheat developing grains under water deficit by label-free based quantitative proteomic approach.

Project description:Berry skin total protein from Cabernet Sauvignon, Merlot, Pinot Noir, Chardonnay and Semillon. Treatments were control (well-watered) versus restricted irrigation (water-deficit). Samples were taken from harvest-ripe whole berry clusters following a seasonal water deficit in treatment vines. A comparative analysis between the cultivars and treatments was performed. Associated dataset identifiers: GSE72421, PRJNA268857.

Project description:A customized targeted oligoarray was used to monitor the expression levels of 1000 genes, representative of the immature kernel transcriptome. Using this oligoarray we compared transcripts from 10 DAP kernels of two susceptible and two drought tolerant genotypes. These four genotypes were extracted from our RIL population (B73xH99) and grown under water stress and well watered field conditions. Keywords: Stress response Two-condition experiment: water stress field condition vs. well watered field condition. Transcriptional profiling of 10 DAP kernel (two susceptible and two drought tolerant genotypes) in the first condition vs 10 DAP kernel (two susceptible and two drought tolerant genotypes) in the second condition. Hybridization replicates: 4 in dye swap mode. Two probes per gene per array.

Project description:Populus×canescens inoculated with or without different ectomycorrhizal fungi, Paxillus involutus (MAJ) and Cenococcum geophilum Fr., were co-cultured in greeenhouse for 16 weeks, then exposed to different water conditions (well-watered, drought and re-watered) for 4 weeks. Poplar leaves and roots were harvest for RNA sequenceing.

Project description:Determination of changes in expression of genes and pathways as a consequence of drought treatment and following rewatering in barley cv. Golden Promise. RNAs were collected following stomatal closure (theta-critical point) and following rewatering from leaves as well as under fully watered conditions. The plants were grown under greenhouse conditions.

Project description:After a standard cultivation program of six weeks, tomato plants (Solanum lycopersicum L.) cultivar MicroTom were grown under different conditions of atmospheric humidity and soil irrigation. The atmospheric humidity was adjusted to 40% and 80%, respectively. To regulate soil moisture, all potted plants were substrate saturated watered once a week. Furthermore, only a group of these plants was irrigated to assure optimally growing conditions (optimal watering conditions), whereas a second group had to cope with little water supply (no watering conditions). Mature green fruits were investigated (fruit developmental category II). Samples contained exclusively the fruit peel, which was removed with a scalpel to a depth of approximately 1 mm. After sampling point the plant material was immediately frozen in liquid nitrogen and stored at -80 C until use.

Project description:Transcriptional profiling of Arabidopsis rossette leaves comparing WT Col-0 with a transgenic line overexpressing AhERF or AhDOF genes from Amaranthus hypochondriacus under different conditions. Three-condition experiment of WT vs AhERF OE plant leaves. The analyzed conditions were: normal growth conditions, 5 days of water stress (no irrigation) and 24 hrs of recovery after watering water-stressed plants. Besides, a two-condition experiment where WT vs AhDOF OE plant leaves were compared. The experimental conditions were: normal growth conditions and plants watered with 40mL of 400mM NaCl solution for three straight days to produce salt stress.

Project description:We also used microarray analysis to examine transcriptomic changes under moderate drought, identifying thousends of genes that potentially mediate moderate drought responses in the flower, including genes encoding transcription factors that likely play crucial regulatory roles. Arabidopsis were well-watered until after just bolting (after 24 days growth with the main stem about 1 cm high) when moderate drought treatment was started by withholding water (defined as day 0 for moderate drought treatment). The relative soil moisture content decreased rapidly and, after about 48 hours the relative soil moisture content was near 50% of the soil water-holding capacity (first moderate drough treated sample M3 were collected at day 3 (72 h after withholding water)). The soil water condition was maintained by daily watering until almost all the fruits were mature and ready to harvest (about 50 days). For well-watered (control) plants, 90% of the soil water-holding capacity was maintained until tissue harvest or after seed maturation (pots were weighed and watered twice per day). Unopened floral bud samples were collected at day 0, 3, 4, 5, 10.

Project description:We also used microarray analysis to examine transcriptomic changes under drought, identifying thousands of genes that potentially mediate drought responses in the flower, including genes encoding transcription factors that likely play crucial regulatory roles. Arabidopsis were well-watered until after just bolting (after 24 days growth with the main stem about 1 cm high) when drought treatment was started by withholding water (defined as day 0 for drought treatment). The relative soil moisture content decreased sharply and, after about 80 hours (defined as day 3 for drought treatment), the relative soil moisture content was near 35% of the soil water-holding capacity. The soil water condition was maintained by daily watering until almost all the fruits were mature and ready to harvest (about 50 days). For well-watered (control) plants, 90% of the soil water-holding capacity was maintained until tissue harvest or after seed maturation (pots were weighed and watered twice per day). Unopened flower samples were collected, from both treated and control plants, at day 0, 3, 4, 5, 10.

Project description:Purpose: To study the effects of drought at the transcriptomic level on two different actively dividing maize tissue: the ovaries, and the leaf meristem Methods: The Illumina reads were mapped to the maize B73 reference genome using Tophat followed by transcriptome reconstruction using Cufflinks. The FPKM valuse were extracted from cufflinks output and an R package called Limma was used to identify differentially expressed genes under drought under both tissues Results and Conclusions: Different processes which were differentially expressed under drought in both tissues were identified and analyzed in detail. A working hypothesis was formulated to account for the observed susceptibility of the reproductive tissue when compared to the robust response of the vegetative tissue. This analysis also servers as a basis for future study on drought-induced embryo abortion. Maize (Zea mays) plants of inbred line B73 were grown in the green house under well watered and drought stress conditions until they reached the reproductive stage (at the onset of silk emergence). For the drought stress two to three days after irrigation was withheld, the plants were hand pollinated, and 24 hours after pollination measurements and samples were collected for transcriptome analysis. At the end of the drought period (1DAP) the basal leaf meristem of the three youngest leaves and the ovary tissues were sampled for Illumina deep sequencing. Samples were labeled as well watered control leaf meristem (MLC), well watered control ovaries/ "cob" (MCC), drought stressed leaf meristem (MLD) and drought stressed ovary tissue (MCD). There are 8 libraries in total including one biological replicate for each condition.