Project description:Expression data from tissues during somatic embryogenesis in Arabidopsis

Project description:Arabidopsis thaliana somatic embryogenesis

Project description:Transcription factor transcriptome during somatic embryogenesis (SE) in Arabidopsis thaliana

Project description:embryogenesis col0-somatic embryogenesis

Project description:embryogenesis ws-somatic embryogenesis

Project description:Gene expression in response to AGL15 during somatic embryogenesis

Project description:The microarray test aims to find the miRNAs involved in somatic embryogenesis in Arabidopsis. The plant microRNA array V2.0 (CapitalBio Corp., Beijing, China) contained 426 non-reduplicated plant miRNA probes, including 188 in Arabidopsis. Finally, 75 plant miRNAs expressed differentially, 36 increased and 39 decreased included.

Project description:Cellular differentiation is associated with changes in transcript populations. Accurate quantification of transcriptomes during development can thus provide global insights into differentiation processes including the fundamental specification and differentiation events operating during plant embryogenesis. However, multiple technical challenges have limited the ability to obtain high quality early embryonic transcriptomes, namely the low amount of RNA obtainable and contamination from surrounding endosperm and seed-coat tissues. We compared the performance of three low-input mRNA sequencing (mRNA-seq) library preparation kits on 0.1 to 5 nanograms (ng) of total RNA isolated from Arabidopsis thaliana (Arabidopsis) embryos and identified a low-cost method with superior performance. This mRNA-seq method was then used to profile the transcriptomes of Arabidopsis embryos across eight developmental stages. By comprehensively comparing embryonic and post-embryonic transcriptomes, we found that embryonic transcriptomes do not resemble any other plant tissue we analyzed. Moreover, transcriptome clustering analyses revealed the presence of four distinct phases of embryogenesis which are enriched in specific biological processes. We also compared zygotic embryo transcriptomes with publicly available somatic embryo transcriptomes. Strikingly, we found little resemblance between zygotic embryos and somatic embryos derived from late-staged zygotic embryos suggesting that somatic and zygotic embryo transcriptomes are distinct from each other. In addition to the biological insights gained from our systematic characterization of the Arabidopsis embryonic transcriptome, we provide a data-rich resource for the community to explore.

Project description:In this project, we profiled the dynamics of proteome during Arabidopsis early embryogenesis using nanoproteomics. In addition, we identified some proteins which may be important during this process. Combining with RNA-seq, we unveiled the relationship between RNA and proteins during Arabidopsis early embryogenesis.

Project description:Regulatory Mechanisms of the LBD40 Transcription Factor in Arabidopsis Somatic Embryogenesis