Main menu

Hybrid genome assembly and annotation of Danionella translucida, a transparent fish with the smallest known vertebrate brain


Studying the activity of distributed neuronal circuits at a cellular resolution in vertebrates is very challenging due to the size and optical turbidity of their brains. We recently presented Danionella translucida, a close relative of zebrafish, as a model organism suited for studying large-scale neural network interactions in adult individuals. Danionella remains transparent throughout its life, has the smallest known vertebrate brain and possesses a rich repertoire of complex behaviours. Here we sequenced, assembled and annotated the Danionella translucida genome employing a hybrid Illumina/Nanopore read library as well as RNA-seq of embryonic, larval and adult mRNA. We achieved high assembly continuity using low-coverage long-read data and annotated a large fraction of the transcriptome. This dataset will pave the way for molecular research and targeted genetic manipulation of the smallest known vertebrate brain.

Authors: Mykola Kadobianskyi, Lisanne Schulze, Markus Schuelke, Benjamin Judkewitz

Getting started

Buy a MinION starter pack Nanopore store Sequencing service providers Channel partners

Nanopore technology

Subscribe to Nanopore updates Resources and publications What is the Nanopore Community

About Oxford Nanopore

News Company timeline Sustainability Leadership team Media resources & contacts For investors For partners Working at Oxford Nanopore Current vacancies Commercial information BSI 27001 accreditationBSI 90001 accreditationBSI mark of trust
Spanish flag