Abstract
Pluripotency markers Pou5f1 and Nanog are core transcription factors regulating early embryonic development and maintaining the pluripotency and self-renewal of stem cells. Pou5f1 and Nanog also play important roles in germ cell development and gametogenesis. In this study, Pou5f1 (EcPou5f1) and Nanog (EcNanog) were cloned from orange-spotted grouper, Epinephelus coioides. The full-length cDNAs of EcPou5f1 and EcNanog were 2790 and 1820 bp, and encoded 475 and 432 amino acids, respectively. EcPou5f1 exhibited a specific expression in gonads, whereas EcNanog was expressed highly in gonads and weakly in some somatic tissues. In situ hybridization analyses showed that the mRNA signals of EcNanog and EcPou5f1 were exclusively restricted to germ cells in gonads. Likewise, immunohistofluorescence staining revealed that EcNanog protein was limited to germ cells. Moreover, both EcPou5f1 and EcNanog mRNAs were discovered to be co-localized with Vasa mRNA, a well-known germ cell maker, in male and female germ cells. These results implied that EcPou5f1 and EcNanog could be also regarded as reliable germ cell marker genes. Therefore, the findings of this study would pave the way for elucidating the mechanism whereby EcPou5f1 and EcNanog regulate germ cell development and gametogenesis in grouper fish, and even in other protogynous hermaphroditic species.
Highlights
Germ cell development is indispensable for animal reproduction and fertility
Pou5f1 protein is a class V POU domain transcription factor containing a POU domain that consists of POU specific domain (POUs), POU homeodomain (POUhD), and a linker between them [14]
Sequences of EcPou5f1 and EcNanog were deposited in GenBank with accession numbers OL439940 and OK415852, respectively
Summary
Germ cell development is indispensable for animal reproduction and fertility. The complex process from the formation of primordial germ cells (PGCs) to the differentiation into gametes is strictly regulated by many factors, such as hormones and reproduction-related genes [1,2,3]. Germ cell marker genes can be used for exploring PGCs formation and migration, germ cell development, and the mechanism behind gametogenesis. Some germ cell-specific genes have been characterized, including PGC-specific gene. Pou5f1 ( known as Oct4) and Nanog are closely related to each other and characterized as core transcription factors essential for embryogenesis and the maintenance of 4.0/). The POU domain of Pou5f1 can regulate the transcription of its target genes possessing an octamer sequence motif of ATGC(A/T)AAT [15]
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