The primary role of zebrafish is in extra-embryonic tissue.

Development
Authors
Keywords
Abstract

The role of the zebrafish transcription factor Nanog has been controversial. It has been suggested that Nanog is primarily required for the proper formation of the extra-embryonic yolk syncytial layer (YSL) and only indirectly regulates gene expression in embryonic cells. In an alternative scenario, Nanog has been proposed to directly regulate transcription in embryonic cells during zygotic genome activation. To clarify the roles of Nanog, we performed a detailed analysis of zebrafish mutants. Whereas zygotic mutants survive to adulthood, maternal-zygotic (MZ) and maternal mutants exhibit developmental arrest at the blastula stage. In the absence of Nanog, YSL formation and epiboly are abnormal, embryonic tissue detaches from the yolk, and the expression of dozens of YSL and embryonic genes is reduced. Epiboly defects can be rescued by generating chimeric embryos of MZ embryonic tissue with wild-type vegetal tissue that includes the YSL and yolk cell. Notably, cells lacking Nanog readily respond to Nodal signals and when transplanted into wild-type hosts proliferate and contribute to embryonic tissues and adult organs from all germ layers. These results indicate that zebrafish Nanog is necessary for proper YSL development but is not directly required for embryonic cell differentiation.

Year of Publication
2018
Journal
Development
Volume
145
Issue
1
Date Published
2018 01 09
ISSN
1477-9129
DOI
10.1242/dev.147793
PubMed ID
29180571
PubMed Central ID
PMC5825865
Links
Grant list
R01 HD085905 / HD / NICHD NIH HHS / United States