Tomo-seq: A method to obtain genome-wide expression data with spatial resolution

Publication date

2016

Authors

Kruse, F.
Junker, J. P.
van Oudenaarden, AlexanderORCID 0000-0002-9442-3551ISNI 0000000042369843
Bakkers, JeroenISNI 0000000387784276

Editors

Detrich, H. William
Westerfield , Monte
Zon, Leonard I.

Advisors

Supervisors

Document Type

Part of book

Collections

Open Access logo

License

taverne

Abstract

To improve our understanding of pattern formation during development and disease we heavily rely on the identification of novel regulators and pathways. While RNA sequencing yields genome-wide expression data that suit this purpose, it lacks spatial resolution. Such spatial resolution can be obtained by microscopy-based methods like in situ hybridization, but these fail to provide information on more than a few genes at a time. Here, we describe tomo-seq, a technique that combines the advantages of the above-mentioned approaches and provides genome-wide expression data with spatial information. The tomo-seq technique is based on cryosectioning of an embryo or tissue of interest and performing RNA-seq on individual sections. Using this method, we have generated genome-wide transcriptomics with high spatial resolution of the whole zebrafish embryo at various stages of development (Junker et al., 2014) and of adult zebrafish hearts after injury (Wu et al., 2016).

Keywords

Embryo, Gene expression, Patterning, RNA-seq, Zebrafish, Taverne, Cell Biology, Journal Article

Citation

Kruse, F, Junker, J P, van Oudenaarden, A & Bakkers, J 2016, Tomo-seq : A method to obtain genome-wide expression data with spatial resolution. in H W Detrich, M Westerfield & L I Zon (eds), The Zebrafish Genetics, Genomics, and Transcriptomics. Methods in Cell Biology, vol. 135, Academic Press Inc., pp. 299-307. https://doi.org/10.1016/bs.mcb.2016.01.006