Project description:Transcriptional profile of the tail of zebrafish deiodinase knockdown

Project description:Hyaluronic acid synthesis is required for zebrafish tail fin regeneration

Project description:Zygotic gene activatory network in zebrafish is globally controlled by Pou5f1 SoxB1 enhancers

Project description:Transcriptome Analysis Reveals a Comprehensive Regulatory Network Involved in the Zebrafish Model of Diamond-Blackfan Anemia from RPL5 Deficiency [RNA-Seq]

Project description:Transcriptome Analysis Reveals a Comprehensive Regulatory Network Involved in the Zebrafish Model of Diamond-Blackfan Anemia from RPL5 Deficiency [miRNA-Seq]

Project description:Identification of enhancer regulatory elements that direct epicardial gene expression during zebrafish heart regeneration

Project description:Purpose: Construction of 3D zebrafish spatial transcriptomics data for studying the establishment of AP axis. Methods: We performed serial bulk RNA-seq data of zebrafish embryo at three development points. Using the published spatial transcriptomics data as references, we implemented Palette to infer spatial gene expression from bulk RNA-seq data and constructed 3D embryonic spatial transcriptomics. The constructed 3D transcriptomics data was then projected on zebrafish embryo images with 3D coordinates, establishing a spatial gene expression atlas named Danio rerio Asymmetrical Maps (DreAM). Results: DreAM provides a powerful platform for visualizing gene expression patterns on zebrafish morphology and investigating spatial cell-cell interactions. Conclusions: Our work used DreAM to explore the establishment of anteroposterior (AP) axis, and identified multiple morphogen gradients that played essential roles in determining cell AP positions. Finally, we difined a hox score, and comprehensively demonstrated the spatial collinearity of Hox genes at single-cell resolution during development.

Project description:Global identification of the gene networks and cis-regulatory elements of the cold response in zebrafish

Project description:Zic3 interacts with distant regulatory elements to regulate zebrafish developmental genes

Project description:Zebrafish: Estrogen induced gene expression