Project description:we used two contrasting maize genotypes with differential oil accumulation percentage. High oil content (HOC) maize had 11% oil content while low oil content (LOC) maize had significantly lower oil content (5.4%). Transmission electron microscopy revealed a higher accumulation of oil bodies in the HOC maize embryo as compared to LOC maize. Comparative RNA-sequencing analysis at different developmental stages of seed embryo identified 739 genes that are constantly differentially expressed (DEGs) at all the six developmental stages from 15 days after pollination (DAP) to 40 DAP. KEGG enrichment analysis identified fatty acid metabolism and fatty acid biosynthesis as the most enriched biological pathways contributed by these DEGs. Notably, transcriptional changes are more intense at the early stages of embryo development as compared to later stages. In addition, pathways related to oil biosynthesis and their corresponding genes were more enriched at 30 DAP, which seems to be the key stage for oil accumulation. The study also identified 33 key DEGs involved in fatty acid and triacylglycerols biosynthesis, most of them were up-regulated in HOC, which may shape the differential oil contents in the two contrasting maize. Notably, we uncovered that both acyl-CoA-dependent and acyl-CoA-independent processes are essential for the high oil accumulation in maize embryo.
Project description:Transcriptome profiles of MATZ and BETL tissues are compared across three stages of development. Sugars and other nutrients unloaded from vascular tissues in the MATZ are imported by the BETL for utilization by the developing endosperm. Pronounced changes in gene expression occur in both tissues during kernel development. RNAseq data were obtained from duplicate tissue samples isolated by cryomicrodissection of developing maize kernels at three developmental time points; 8 days post-pollination (DAP), 14 DAP and 20 DAP.
Project description:To investigate the expression profile of three different developental stages of zebrafish embryos, we then performed gene expression profiling analysis using data obtained from RNA-seq of 3 different developmental of zebrafish embryos.
Project description:In this study our research group has completed the metabolome sequencing of Thelephora ganbajun Zang in three key developmental stages, including mycelium, primordium and fruiting body, aiming to explore the specific substances or special mechanisms that may affect the development of ectomycorrhiza of strain 46 in its entire life history indifferent developmental stages, and to conduct dynamic real-time monitoring of the gene expression products