Project description:Methylation Changes in Soybean Early Maturation Seed Parts

Project description:Methylation Changes in Soybean Mid-Maturation Seed Parts

Project description:Gene Expression Changes in the Development of the Soybean Seed-Cotyledon Stage

Project description:Seeds are comprised of three major parts of distinct parental origin: the seed coat, embryo, and endosperm. The maternally-derived seed coat is important for nurturing and protecting the seeds during development. By contrast, the embryo and the endosperm are derived from a double fertilization event, where one sperm fertilizes the egg to form the diploid zygote and the other sperm fertilizes the central cell to form the triploid endosperm. Each seed part undergoes distinct developmental programs during seed development. What methylation changes occur in the different seed parts, if any, remains unknown. To uncover the possible role of DNA methylation in different parts of the seed, we characterized the methylome of three major parts of cotyledon stage seeds, the seed coat, embryonic cotyledons, and embryonic axis, using Illumina sequencing. Illumina sequencing of bisulfite-converted genomic DNA from three parts of soybean cotyledon stage seeds: seed coat (COT-SC), embryonic cotyledons (COT-COT), and embryonic axis (COT-AX).

Project description:Genome-Wide Small RNA Profiling of a Soybean Seed Compartment-Cotyledon Stage

Project description:Expression data from soybean seed compartments with embryos at the cotyledon stage

Project description:Methylation Changes During Soybean Seed Development

Project description:What methylation changes are occurring in different parts of early maturation stage seed largely remains unknown. To uncover the possible role of DNA methylation in different parts of early maturation stage seed, we characterized the methylome of seed coats,cotyledons, and the embryonic seed axis using Illumina sequencing. seed coats, cotyledon, and axis

Project description:The nuclei of Glycine max from different tissues were collected. The samples were: soybean seed mid-maturation stage (10mm), seed late cotyledon stage (5mm), seed early cotyledon stage (3mm), seed heart stage (1mm), soybean green pods without seeds (stage), soybean flower bud (early flowering stage), soybean shoot apical meristem (stage), soybean trifoliate leaf (R5 stage), and soybean true leave (stage). The library construction was performed applying 10 Genomics technology.

Project description:A transcriptome analysis of soybean seeds harvested at different developing stages (between stage 7.1 and stage 9) was carried out to understand the molecular events occuring during the acquisition of seed longevity during maturation.