Project description:tomato RNA-seq

Project description:This SuperSeries is composed of the following subset Series: GSE33763: Expression data from 2C::tomato+ vs 2C::tomato - ES cells GSE33920: mRNA-Seq of 2C::tomato+ vs. - ES cells GSE33921: RNA-Seq from two-cell (2C) stage embryos GSE33922: RNA-Seq from wt oocytes GSE36896: RNA-Seq from wt and G9A knockout ES cells Refer to individual Series

Project description:To further clarify the differences in the potential regulatory mechanisms of cold tolerance between wild and cultivated tomatoes, we subjected cold-sensitive cultivated tomato (Solanum lycopersicum) Ailsa Craig (AC) and cold-tolerant wild tomato (S. habrochaites) LA1777 to cold stress for 6 h, and performed ATAC-Seq and RNA-Seq, respectively.

Project description:Tomato RNA-seq analysis

Project description:Cherry tomato RNA-seq

Project description:RNA-Seq of tomato

Project description:tomato scion RNA-seq

Project description:We identified/quantified genes and repeat elements enriched within 2C::tomato+ cells vs. 2C::tomato - cells 2C::tomato + and - cells were collected by FACS for RNA-Seq analysis

Project description:The first GSSM of V. vinifera was reconstructed (MODEL2408120001). Tissue-specific models for stem, leaf, and berry of the Cabernet Sauvignon cultivar were generated from the original model, through the integration of RNA-Seq data. These models have been merged into diel multi-tissue models to study the interactions between tissues at light and dark phases.

Project description:<p><strong>SCOPE:</strong> Tomato consumption is associated with many health benefits including lowered risk for developing certain cancers. It is hypothesized that tomato phytochemicals are transported to the liver and other tissues where they alter gene expression in ways that lead to favorable health outcomes. However, the effects of tomato consumption on mammalian liver gene expression and chemical profile are not well defined.</p><p><strong>METHODS AND RESULTS:</strong> We hypothesized that tomato consumption would alter mouse liver transcriptomes and metabolomes compared to a control diet. C57BL/6 mice (n=11-12/group) were fed a macronutrient matched diet containing either 10% red tomato, 10% tangerine tomato, or no tomato powder for 6 weeks after weaning. RNA-Seq followed by gene set enrichment analyses indicated that tomato type and consumption, in general, altered expression of phase I and II xenobiotic metabolism genes. Untargeted metabolomics experiments revealed distinct clustering between control and tomato fed animals. Nineteen molecular formulas (representing 75 chemical features) were identified or tentatively identified as steroidal alkaloids and isomers of their phase I and II metabolites; many of which are reported for the first time in mammals.</p><p><strong>CONCLUSION:</strong> These data together suggest tomato consumption may impart benefits partly through enhancing detoxification potential.</p>