Project description:Eragrostis tef well-watered and drought treatment transcriptome

Project description:In this study, genome-wide transcriptome profiling was used to understand molecular genetic mechanism of drought tolerance in rice. Illumina High-Seq 2000 platform was used for sequencing RNA from leaf tissue of rice plants exposed to controlled drought stress and well-watered conditions. The differentially expressed genes were used to identify biological process and cis-regulatory elements enriched under drought stress compared to well-watered conditions.

Project description:Eragrostis tef miRNA sequencing under drought conditions

Project description:Eragrostis nindensis isolate:PI410063 Epigenomics

Project description:Investigation of whole genome gene expression level changes in two asparagus bean accesions B47 and B128 under drought stress, compared to well-watered conditions. Two organs, leaf and root, were sampled for each accesion under both well-watered and drought conditions.

Project description:Eragrostis curvula overview

Project description:Eragrostis tef Map

Project description:Eragrostis nindensis overview

Project description:Eragrostis tef Organism overview

Project description:We report here the RNAseq data generated from a drought experiment using tomato leaves (Solanum lycopersicum), in which three timepoints and two treatments were collected. More specifically, RNAseq was generated from tomato plants prior to drought (T0), during a period of drought (T1) and after a period of recovery from drought (T2). At timepoints 1 and 2 (T1 & T2), a control set of plants that were continuously watered are also included. Furthermore, at each timepoint, each leaf was dissected into two parts, including the vein and intervein. The samples are therefore named as Tissue/Timepoint/Treatment, and include VT0W (vein, T0, watered), VT1W (vein, T1, watered), VT1D (vein, T1, drought), VT2D, VT2W and IVT0W (intervein, T0, Watered), IVT1D, IVT1W, IVT2D, IVT2W. Note that VT2D and IVT2D, while named "drought", were actually recovered from drought.