Project description:The goal of this study was to search for DELLA-independent GA-regulated genes in tomato. RNA deep sequencing (RNA-seq) was performed to GA-treated M82 and pro∆GRAS mutant. Using a two fold increased or decreased cutoff we identified 81 GA-up regulated and 15 GA-down regulated genes, from which five genes were DELLA-independent. M82 and pro∆GRAS seedlings were treated with Paclobutrazol (10mg/l) once a day for three days followed by a single GA3 application (100 µM). Three hours after the GA treatment, young leaves were collected and RNA was extracted for Illumina HiSeq 2500 sequencing. A total of eight samples were analyzed, each treatment had two biological replicates.
Project description:The goal of this study was to search for DELLA-independent GA-regulated genes in tomato. RNA deep sequencing (RNA-seq) was performed to GA-treated M82 and pro∆GRAS mutant. Using a two fold increased or decreased cutoff we identified 81 GA-up regulated and 15 GA-down regulated genes, from which five genes were DELLA-independent.
Project description:We sequenced mRNA from immature green (15 days after anthesis) and red (Breaker+10 days) tomato (Solanum lycopersicum) fruit tissues from plants over-expressing SlGLK1 and SlGLK2 and from control plants 'M82' to compare gene expression levels between transgenic fruit and the control. Note: Samples in SRA were assigned the same sample accession. This is incorrect as there are different samples, hence “Source Name” was replaced with new values. Comment[ENA_SAMPLE] contains the original SRA sample accessions.
Project description:Whole genome bisulfite sequencing was done in F3 plants resulting from a cross between Solanum lycopersicum plants bearing the sulfurea epiallele and cmt3 mutants. 6 F3 plants were sequenced: 3 WT and 3 cmt3. The F3 WT plants had methylation levels (quantified with McrBC-qPCR) consistent with the TAB2sulf epiallele and the cmt3 plants had methylation levels consistent with TAB2+ (low DNA methylation). cmt3 mutants from the F2 generation were backcrossed with WT cv M82 plants to restore CMT3 activity and followed for 2 generations (BC2). 4 BC2 plants were sequenced 2 WT and 2 cmt3. The aim of the experiment was to compare DNA methylation levels in all contexts between cmt3 and WT F3 plants with particular interest on SlTAB2 (Solyc02g005200) which has been previously associated with paramutation in the sulfurea background. The stability of DNA methylation upon CMT3 reintroduction was assessed in the BC2 plants. WT cv M82, cmt3 and sulfurea controls were added in single replicates.
Project description:Plants bearing a sulfurea epiallele (TAB2sulf) were crossed with nrpe1 (largest polV subunit) mutants in Solanum Lycopersicum. 7 plants of a F3 progeny expected to be 100% TAB2sulf and segregating for the nrpe1 mutation were sequenced. 4 plants bear the nrpe1 mutation and 3 plants have NRPE1 WT alleles. The aim of the experiment was to compare sRNA accumulation between nrpe1 and WT F3 plants with particular interest on SlTAB2 (Solyc02g005200) which has been previously associated with paramutation in the sulfurea background. Both WT and nrpe1 F3 plants had methylation levels consistent with the TAB2sulf epiallele. nrpe1 and sulfurea parental controls are added in single replicates and a WT cv M82 plant is also sequenced as control. More replicates of WT and M82 are sequenced in a related experiment.
Project description:Plants bearing a sulfurea epiallele (TAB2sulf) were crossed with cmt3 mutants in Solanum Lycopersicum. 6 plants of a F2 progeny segregating both for TAB2sulf and cmt3 mutation were sequenced. 4 plants bear the cmt3 mutation and 2 plants have CMT3 WT alleles. the aim of the experiment was to compare sRNA accumulation between cmt3 and WT plants with particular interest on SlTAB2 (Solyc02g005200) which has been previously associated with paramutation in the sulfurea background. The WT plants had methylation levels consistent with the TAB2sulf epiallele and the cmt3 plants had methylation levels consistent with TAB2+ (low DNA methylation). cmt3 and sulfurea parental controls are added in single replicates and a WT cv M82 plant is also sequenced as control. More replicates of WT and M82 are sequenced in a related experiment.
Project description:The goal of this study was to perform RNA-seq expression analysis on Solanum lycopersicum cv. M82 X S. pennellii introgression lines, deriving expression Quantitative Trait Loci which were analyzed together with pre-existing genomic and phenotypic data to define genes and regulatory pathways controlling tomato root development and observed natural variation. We completed the RNAseq expression profiling analysis and developed a tool to display this information graphically in collaboration with Nicholas Provart at the University of Toronto: http://bar.utoronto.ca/efp_tomato/cgi-bin/efpWeb.cgi?dataSource=ILs_Root_Tip_Brady_Lab To identify candidate genes and pathways we focussed on one root growth trait, root growth angle, and identified two statistically significant genomic regions within tomato root growth angle QTL containing two candidate genes that likely control the gravitropic setpoint angle (CDC73 and PAP27), both of which are conserved between Arabidopsis and tomato, and which we tested using transgenic lines of the Arabidopsis orthologs. A possible regulatory role for suberin in root growth angle control was also identified.