Saved in:
Bibliographic Details
Main Authors: Su, Naike, Ren, Zhiqin, Wang, Houpeng, Wang, Chaofan, Hao, Yongkang, Ye, Ding, He, Mudan, Sun, Yonghua
Format: Artículo científico
Language:en
Published: Communications biology 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41444822/
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1868266108311568384
author Su, Naike
Ren, Zhiqin
Wang, Houpeng
Wang, Chaofan
Hao, Yongkang
Ye, Ding
He, Mudan
Sun, Yonghua
author_facet Su, Naike
Ren, Zhiqin
Wang, Houpeng
Wang, Chaofan
Hao, Yongkang
Ye, Ding
He, Mudan
Sun, Yonghua
Su, Naike
Ren, Zhiqin
Wang, Houpeng
Wang, Chaofan
Hao, Yongkang
Ye, Ding
He, Mudan
Sun, Yonghua
collection PubMed - marine biology
contents Cyprinid Juji (Gobiocypris rarus) as a model fish to study germ cell development and gonadal differentiation. Su, Naike Ren, Zhiqin Wang, Houpeng Wang, Chaofan Hao, Yongkang Ye, Ding He, Mudan Sun, Yonghua Animals Female Male Cyprinidae Germ Cells Animals, Genetically Modified Cell Differentiation Gonads Sex Differentiation Ovary Gene Expression Regulation, Developmental Transcription Factors Although the cyprinid zebrafish has been widely used to study gametogenesis and gonadal differentiation, it has remarkable limitations, such as the loss of sex determinants in laboratory strains, a juvenile ovary stage in both sexes, and oocyte defects generally leading to sex reversal. Here, we develop a novel small cyprinid model for studying gonadal differentiation and gametogenesis, Juji (Gobiocypris rarus), which possesses a genetic sex determination system. We generate a transgenic line of Juji, Tg(ddx4:EGFP-UTRddx4), enabling lifetime visualization of germline development, and find that the dimorphic expression of ddx4:EGFP, rather than primordial germ cell number, at early stages determines the sexual fate of adults. RNA-seq analysis of juvenile ovaries and testes prior to germ cell differentiation identifies sexually dimorphic genes and signaling pathways. Several key factors, such as foxl2l and dmrt1, which drive gonadal differentiation, are among the sexually dimorphic genes. Knockout of dmrt1 leads to sex reversal in juvenile males, with all mutants developing into females. Furthermore, transplanting germline stem cells from genetic males into dmrt1 mutants results in all transplants developing into females, highlighting the essential Sertoli-cell-specific role of dmrt1 in triggering spermatogenesis. Our study establishes Juji as a promising model for investigating sex differentiation, gametogenesis, and gonadal development.
format Artículo científico
id pubmed_41444822
institution PubMed
language en
publishDate 2025
publisher Communications biology
record_format pubmed
spellingShingle Cyprinid Juji (Gobiocypris rarus) as a model fish to study germ cell development and gonadal differentiation.
Su, Naike
Ren, Zhiqin
Wang, Houpeng
Wang, Chaofan
Hao, Yongkang
Ye, Ding
He, Mudan
Sun, Yonghua
Animals
Female
Male
Cyprinidae
Germ Cells
Animals, Genetically Modified
Cell Differentiation
Gonads
Sex Differentiation
Ovary
Gene Expression Regulation, Developmental
Transcription Factors
Cyprinid Juji (Gobiocypris rarus) as a model fish to study germ cell development and gonadal differentiation. Su, Naike Ren, Zhiqin Wang, Houpeng Wang, Chaofan Hao, Yongkang Ye, Ding He, Mudan Sun, Yonghua Animals Female Male Cyprinidae Germ Cells Animals, Genetically Modified Cell Differentiation Gonads Sex Differentiation Ovary Gene Expression Regulation, Developmental Transcription Factors Although the cyprinid zebrafish has been widely used to study gametogenesis and gonadal differentiation, it has remarkable limitations, such as the loss of sex determinants in laboratory strains, a juvenile ovary stage in both sexes, and oocyte defects generally leading to sex reversal. Here, we develop a novel small cyprinid model for studying gonadal differentiation and gametogenesis, Juji (Gobiocypris rarus), which possesses a genetic sex determination system. We generate a transgenic line of Juji, Tg(ddx4:EGFP-UTRddx4), enabling lifetime visualization of germline development, and find that the dimorphic expression of ddx4:EGFP, rather than primordial germ cell number, at early stages determines the sexual fate of adults. RNA-seq analysis of juvenile ovaries and testes prior to germ cell differentiation identifies sexually dimorphic genes and signaling pathways. Several key factors, such as foxl2l and dmrt1, which drive gonadal differentiation, are among the sexually dimorphic genes. Knockout of dmrt1 leads to sex reversal in juvenile males, with all mutants developing into females. Furthermore, transplanting germline stem cells from genetic males into dmrt1 mutants results in all transplants developing into females, highlighting the essential Sertoli-cell-specific role of dmrt1 in triggering spermatogenesis. Our study establishes Juji as a promising model for investigating sex differentiation, gametogenesis, and gonadal development.
title Cyprinid Juji (Gobiocypris rarus) as a model fish to study germ cell development and gonadal differentiation.
topic Animals
Female
Male
Cyprinidae
Germ Cells
Animals, Genetically Modified
Cell Differentiation
Gonads
Sex Differentiation
Ovary
Gene Expression Regulation, Developmental
Transcription Factors
url https://pubmed.ncbi.nlm.nih.gov/41444822/