Project description:High-throughput small RNA sequencing were performed to identify a large number of miRNAs and their targets in mature G. biloba ovules. Our study is the first to provide useful information for uncovering the regulatory networks of miRNAs in basal gymnosperm G. biloba ovules. small RNA sequencing in ovules of G. biloba

Project description:High-throughput RNA, sRNA and degradome sequencing were performed to identify a large number of miRNAs in G. biloba leaf to provide useful information for uncovering the regulatory networks of color formation in G. biloba leaves.

Project description:High-throughput small RNA sequencing were performed to identify a large number of miRNAs and their targets in mature female and male G. biloba leaves for the first time. We ascertained that the regulatory networks of the miRNAs are involved in many different primary biological processes based on potential target designations. Our study is the first to provide useful information for uncovering the regulatory networks of miRNAs in basal gymnosperm G. biloba leaves. small RNA sequencing in female and male leaves of G. biloba

Project description:High-throughput small RNA sequencing were performed to identify a large number of miRNAs and their targets in mature G. biloba ovules. Our study is the first to provide useful information for uncovering the regulatory networks of miRNAs in basal gymnosperm G. biloba ovules.

Project description:High-throughput small RNA sequencing were performed to identify a large number of miRNAs and their targets in mature female and male G. biloba leaves for the first time. We ascertained that the regulatory networks of the miRNAs are involved in many different primary biological processes based on potential target designations. Our study is the first to provide useful information for uncovering the regulatory networks of miRNAs in basal gymnosperm G. biloba leaves.

Project description:High-throughput RNA, sRNA and degradome sequencing were conducted to identify a large number of mRNA, miRNAs and their targets in G. biloba ovules at two different developmental stage, which provided useful information for uncovering the secretion regulatory mechanisms of G. biloba pollination drop.

Project description:To explore the overall long noncoding RNA (lncRNA) involved in major developmental stages of Ginkgo biloba leaves , we deeply sequenced samples of leaves from different developmental stages (from April to October) using strand-specific RNA sequencing (ssRNA-seq) menthod. We obtained 27.44 Gb raw data and identified 1323 novel lncRNAs. We also categorized the novel lncRNAs as intergenic, intronic, antisense and sense based on their location on theGinkgo biloba genome. Furthermore, lncRNAs targeted protein-coding genes were predicted and functional annotated. In addition, we constructed a network of interactions between ncRNAs (miRNAs, lncRNA) and mRNAs. Our results suggest that the identified novel lncRNAs are important in modulating development process of Ginkgo biloba, and provide a rich resource for further research on the function of these novel lncRNAs.

Project description:Ornithomya fringillina

Project description:Ornithomya chloropus

Project description:Ornithomya chloropus overview