Project description:Tissues were isolated from the globular seed using laser microdissection. At least two bioreplicates are included for each tissue. Tissues examined are : the embryo proper (EP), micropylar endosperm (MCE), peripheral endosperm (PEN), chalazal endosperm (CZE), chalazal proliferating tissue (CPT), chalazal seed coat (CZSC), inner seed coat (ISC), and outer seed coat (OSC).
Project description:The seed coat of black (iRT) soybean with the dominant R allele begins to accumulate cyanic pigments at the transition stage of seed development (300 – 400 mg fresh seed weight), whereas the brown (irT) nearly-isogenic seed coat with the recessive r allele lacks cyanic pigments at all stages of seed development. We used microarrays to determine global gene expression differences between black (iRT) and brown (irT) soybean seed coats at the transition stage of seed development (300 – 400 mg fresh seed weight).
Project description:To dissect the gene regulatory networks operating during Scarlet Runner Bean seed development, we identified the binding sites genome-wide for transcription factor in Scarlet Runner Bean seeds during seed development using ChIP-seq
Project description:We present an atlas of global gene expression of embryo, endosperm and seed coat in Branypodium, providing insights into the evolution of gene expression in embryogenesis.
Project description:We present an atlas of global gene expression covering embryo and seed coat development in lentil, providing insights into the evolution of gene expression in embryogenesis of lentil species.
Project description:We present an atlas of global gene expression covering embryo and seed coat development in B. rapa, B. nigra, B. oleracea, B. juncea, B. napus and B. carinata, providing insights into the evolution of gene expression in embryogenesis and seed development of brassica species.
2021-08-22 | GSE153257 | GEO
Project description:RNA-seq of different tissues in castor bean.
Project description:mRNA expression profiling of the embryo, endosperm (micropylar, peripheral, chalazal), and seed coat (outer, inner, chalazal, chalazal proliferating tissue) of the developing Brassica napus seed. Tissues were isolated using laser microdissection (LMD) from Brassica napus seeds at the globular, heart, and mature green stages of seed development.
Project description:We present an atlas of global gene expression covering embryo, endosperm and seed coat development in Chinese Spring and CDC commander, providing insights into the evolution of gene expression in embryogenesis and grain development of hexaploid and tetraploid wheat species.
Project description:Transcriptional profiling during Arabidopsis seed coat development at 3 key developmental timepoints by using 2 mutant lines and their wild types. The data provides a globe view of seed coat development in arabidopsis can be used for identification of new gene candidates for seed coat development.