Project description:transcriptome changes in pea leaves with sulfur deficency/sufficiency during reproductive phase.-Characterization of transcriptome changes in leaves of wild-type and PsSultr4 mutant lines (for a sulfur transporter) subjected or not to sulfur deficiency during the reproductive phase 4plex_pea_2014_01 - transcriptome changes in pea leaves with sulfur deficency/sufficiency during reproductive phase. - Role of sulfur and of the sulfate store in leaf metabolism. - Comparison of: 1- The leaf transcriptome of pea subjected or not to sulfur deficiency during the reproductive phase (S+ versus S –) 2- The leaf transcriptome of wild-type and mutant lines for a sulfur transporter (two TILLING alleles) grown under sulfur sufficient conditions : WT1/Mut1 S+ et WT2/Mut2 S+ 3- The leaf transcriptome of wild-type and mutant lines for a sulfur transporter (two TILLING alleles) grown under sulfur deficient conditions : WT1/Mut1 S+ et WT2/Mut2 S+
Project description:Arabidopsis plants transfer information from the leaf tip to the petiole base to induce adaptive upward leaf movement upon neighbour detection through Far-Red light enrichment in the leaf tip. To determine how a distally derived signal can specifically regulate growth in the abaxial petiole we analysed the transcriptome in the leaf tip and abaxial-adaxially split petiole sections during the first hours of far-red enrichment.
Project description:rs12-07_pnm1 - leaf transcriptome comparison between wt and pnm1dnls plants - Identification of nuclear genes regulated by PNM1 (At5g60960) in Arabidopsis thaliana. Mature rosettte leaf transcriptomes were compared between WT and PNM1DNLS mutants.
Project description:ra05-04_meiocytes - meiocytes - What are the gene expressed during meiosis pathway in Arabidopsis thalina. - Comparison of meiocyte transcriptome versus leaf transcriptome. Keywords: total transcriptome knowledge
Project description:A total of 18 libraries from Setaria viridis were constructed using the Illumina TruSeq sample preparation method. We used two biological replicate libraries from the leaf, whole panicles (inside leaf sheath), whole panicles (coming out of leaf sheath), whole panicles (completely out of leaf sheath), whole panicles (completely out of leaf sheath, after pollination), spikelet (inside leaf sheath), spikelet (coming out of leaf sheath), and spikelet (completely out of leaf sheath).
