Project description:Sl2183 is an updated version of the previous tomato metabolic model (iHY3410), with additional reactions and metabolites, IDs converted into the BiGG nomenclature and biomass reactions for leaf, stem and root, allowing to generate a multi-organ model (see Gerlin et al., Plant Physiol. for additional information).
2022-04-07 | MODEL2111120001 | BioModels
Project description:prickle sequencing in Rosa multiflora
Project description:This study presents transcriptome profiles of multiple tissues (root, stem, leaf, flower, and pod) from Vigna radiata var. sublobata, a wild relative of cultivated mung bean. RNA sequencing was performed using Illumina platform to investigate tissue-specific gene expression patterns. The data will facilitate understanding of gene regulation in different plant organs and provide resources for comparative genomics with cultivated Vigna radiata. Experimental design: Tissues were collected from mature plants grown under controlled conditions. Three biological replicates per tissue type. Libraries were prepared using poly-A selection and sequenced in paired-end mode (2x150 bp). This submission includes raw sequencing data (FASTQ files) for all samples.
Project description:We applied the tiling arrays to study the Arabidopsis whole-genome transcriptome in leaf, root, stem, flower, early silique, middle silique and late silique.
Project description:To reveal the expression of HD-Zip genes in different tissues of cassava, samples from leaf (90 days after planting), stem (90 days after planting), early storage root (ESR, 90 days after planting), middle storage root (MSR, 150 days after planting) and last storage root (LSR, 210 days after planting) were collected for RNA-seq analysis. In addition, their expression was also examined in folded leaf (FL), full expanded leaf (FEL) and bottom leaf (BL), as well as root (RT) at 0, 3, 24 h after the treatment of PEG 6000.
2018-12-31 | GSE93098 | GEO
Project description:Whole-genome sequencing data of Rosa multiflora
| PRJDB4738 | ENA
Project description:Genome‑wide identifiation and comparative analysis of grafting‑responsive mRNA in Rosa rugosa var. grafted with Rosa multiflora ‘Innermis’