Transposon-induced epigenetic silencing in the X chromosome as a novel form of dmrt1 expression regulation during sex determination in the fighting fish

Wang, Le; Sun, Fei; Wan, Zi Yi; Yang, Zituo; Tay, Yi Xuan; Lee, May; Piferrer, Francesc; Meyer, Axel; Schartl, Manfred; Yue, Gen Hua

Transposon-induced epigenetic silencing in the X chromosome as a novel form of dmrt1 expression regulation during sex determination in the fighting fish

Dateien

Wang_2-1w3b7yjlft3xb8.pdfGröße: 1.66 MBDownloads: 146

Datum

2022

Autor:innen

Wang, Le

Sun, Fei

Wan, Zi Yi

Yang, Zituo

Tay, Yi Xuan

Lee, May

Piferrer, Francesc

Meyer, Axel

Schartl, Manfred

Yue, Gen Hua

et al.

Open Access-Veröffentlichung

Open Access Gold

Sammlungen

Biologie

Publikationstyp

Zeitschriftenartikel

Publikationsstatus

Published

Erschienen in

BMC Biology. BioMed Central. 2022, 20(1), 5. eISSN 1741-7007. Available under: doi: 10.1186/s12915-021-01205-y

Zusammenfassung

Background
Fishes are the one of the most diverse groups of animals with respect to their modes of sex determination, providing unique models for uncovering the evolutionary and molecular mechanisms underlying sex determination and reversal. Here, we have investigated how sex is determined in a species of both commercial and ecological importance, the Siamese fighting fish Betta splendens.

Results
We conducted association mapping on four commercial and two wild populations of B. splendens. In three of the four commercial populations, the master sex determining (MSD) locus was found to be located in a region of ~ 80 kb on LG2 which harbours five protein coding genes, including dmrt1, a gene involved in male sex determination in different animal taxa. In these fish, dmrt1 shows a male-biased gonadal expression from undifferentiated stages to adult organs and the knockout of this gene resulted in ovarian development in XY genotypes. Genome sequencing of XX and YY genotypes identified a transposon, drbx1, inserted into the fourth intron of the X-linked dmrt1 allele. Methylation assays revealed that epigenetic changes induced by drbx1 spread out to the promoter region of dmrt1. In addition, drbx1 being inserted between two closely linked cis-regulatory elements reduced their enhancer activities. Thus, epigenetic changes, induced by drbx1, contribute to the reduced expression of the X-linked dmrt1 allele, leading to female development. This represents a previously undescribed solution in animals relying on dmrt1 function for sex determination. Differentiation between the X and Y chromosomes is limited to a small region of ~ 200 kb surrounding the MSD gene. Recombination suppression spread slightly out of the SD locus. However, this mechanism was not found in the fourth commercial stock we studied, or in the two wild populations analysed, suggesting that it originated recently during domestication.

Conclusions
Taken together, our data provide novel insights into the role of epigenetic regulation of dmrt1 in sex determination and turnover of SD systems and suggest that fighting fish are a suitable model to study the initial stages of sex chromosome evolution.

Fachgebiet (DDC)

570 Biowissenschaften, Biologie

Schlagwörter

Teleost, Sex determination, dmrt1, Transposon, Epigenetic regulation, Sex reversal

Zitieren

ISO 690

WANG, Le, Fei SUN, Zi Yi WAN, Zituo YANG, Yi Xuan TAY, May LEE, Francesc PIFERRER, Axel MEYER, Manfred SCHARTL, Gen Hua YUE, 2022. Transposon-induced epigenetic silencing in the X chromosome as a novel form of dmrt1 expression regulation during sex determination in the fighting fish. In: BMC Biology. BioMed Central. 2022, 20(1), 5. eISSN 1741-7007. Available under: doi: 10.1186/s12915-021-01205-y

BibTex

@article{Wang2022-01-07Trans-56427,
  year={2022},
  doi={10.1186/s12915-021-01205-y},
  title={Transposon-induced epigenetic silencing in the X chromosome as a novel form of dmrt1 expression regulation during sex determination in the fighting fish},
  number={1},
  volume={20},
  journal={BMC Biology},
  author={Wang, Le and Sun, Fei and Wan, Zi Yi and Yang, Zituo and Tay, Yi Xuan and Lee, May and Piferrer, Francesc and Meyer, Axel and Schartl, Manfred and Yue, Gen Hua},
  note={Article Number: 5}
}

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    <dcterms:abstract xml:lang="eng">Background&lt;br /&gt;Fishes are the one of the most diverse groups of animals with respect to their modes of sex determination, providing unique models for uncovering the evolutionary and molecular mechanisms underlying sex determination and reversal. Here, we have investigated how sex is determined in a species of both commercial and ecological importance, the Siamese fighting fish Betta splendens.&lt;br /&gt;&lt;br /&gt;Results&lt;br /&gt;We conducted association mapping on four commercial and two wild populations of B. splendens. In three of the four commercial populations, the master sex determining (MSD) locus was found to be located in a region of ~ 80 kb on LG2 which harbours five protein coding genes, including dmrt1, a gene involved in male sex determination in different animal taxa. In these fish, dmrt1 shows a male-biased gonadal expression from undifferentiated stages to adult organs and the knockout of this gene resulted in ovarian development in XY genotypes. Genome sequencing of XX and YY genotypes identified a transposon, drbx1, inserted into the fourth intron of the X-linked dmrt1 allele. Methylation assays revealed that epigenetic changes induced by drbx1 spread out to the promoter region of dmrt1. In addition, drbx1 being inserted between two closely linked cis-regulatory elements reduced their enhancer activities. Thus, epigenetic changes, induced by drbx1, contribute to the reduced expression of the X-linked dmrt1 allele, leading to female development. This represents a previously undescribed solution in animals relying on dmrt1 function for sex determination. Differentiation between the X and Y chromosomes is limited to a small region of ~ 200 kb surrounding the MSD gene. Recombination suppression spread slightly out of the SD locus. However, this mechanism was not found in the fourth commercial stock we studied, or in the two wild populations analysed, suggesting that it originated recently during domestication.&lt;br /&gt;&lt;br /&gt;Conclusions&lt;br /&gt;Taken together, our data provide novel insights into the role of epigenetic regulation of dmrt1 in sex determination and turnover of SD systems and suggest that fighting fish are a suitable model to study the initial stages of sex chromosome evolution.</dcterms:abstract>
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Ja