Generation of Self-Fertilizing Hermaphroditic Fish from Gonochoristic Fish, Medaka (Oryzias latipes).

IF 2.4 4区医学 Q2 DEVELOPMENTAL BIOLOGY

Sexual Development Pub Date : 2022-01-01 DOI:10.1159/000526073

Toshiya Nishimura, Minoru Tanaka

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引用次数: 0

Abstract

Introduction: Hermaphroditism is a mode of reproduction involving an individual animal that possesses both a testis and an ovary either sequentially or simultaneously. The mechanism creating hermaphrodites remains unknown. Previously, we identified foxl3 as the germline sex determination gene in a gonochoristic fish, medaka (Oryzias latipes). foxl3 loss-of-function (foxl3-/-) females produce functional sperm as well as eggs in the ovary. However, these two gametes are not self-fertilizing because of the histological separation of each gamete production. In this study, we attempted to generate self-fertilizing medaka from female medaka by modifying germline sex using foxl3-/- mutants and by using exogenous androgen to induce partial sex reversal of somatic cells.

Methods: foxl3-/- XX females were treated with 11-ketotestosterone (11-KT), a potent teleost fish androgen, at the sexually mature stage for 30 days (90-120 dph). Then, the fish were kept under normal conditions until they were either being dissected or crossed with infertile males.

Results and discussion: We showed that the foxl3-/- XX female medaka can be transformed into a self-fertilizing hermaphrodite by inducing the formation of a male-like structure with exogenous 11-KT. Self-fertilization occurs in either the ovarian cavity, the oviduct, or both where sperm is released from a tubule-like structure which is likely derived from germinal epithelium, suggesting that timely modification of 2 independent mechanisms, regulation of germline sex and partial sex reversal of somatic cells, are critical to change the reproduction mode. Our results will provide insights in developmental and evolutional occurrence of hermaphrodite vertebrates, facilitate an innovative technique to improve the efficient selection of fish with desirable traits, and contribute to the rescue of endangered species.

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墨达卡(Oryzias latipes) Gonochoristic Fish的自交受精雌雄同体鱼的产生。

雌雄同体是一种生殖方式，涉及到一个动物同时拥有睾丸和卵巢或顺序或同时。雌雄同体产生的机制尚不清楚。在此之前，我们在一种gonochristic鱼类medaka (Oryzias latipes)中鉴定出foxl3作为种系性别决定基因。Foxl3功能丧失(Foxl3 -/-)雌性在卵巢中产生有功能的精子和卵子。然而，由于每个配子的组织学分离，这两个配子不能自交受精。在这项研究中，我们试图通过foxl3-/-突变体改变生殖系性别，并使用外源雄激素诱导体细胞部分性别逆转，从雌性medaka中获得自受精medaka。方法:雌性foxl3-/- XX在性成熟期(90-120 dph)用强效硬骨鱼雄激素11-酮睾酮(11-KT)处理30天。然后，这些鱼被保存在正常条件下，直到它们被解剖或与不育雄鱼杂交。结果和讨论:我们发现foxl3-/- XX雌性medaka可以通过外源11-KT诱导形成雄性样结构而转化为自受精的雌雄同体。自受精发生在卵巢腔、输卵管或两者中，精子从可能来自生殖上皮的小管状结构中释放出来，提示及时修改两种独立机制，调节生殖系性别和体细胞的部分性别逆转是改变生殖模式的关键。我们的研究结果将对雌雄同体脊椎动物的发育和进化过程提供深入的见解，促进一种创新的技术来提高具有理想性状的鱼类的有效选择，并有助于濒危物种的拯救。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Sexual Development 生物-发育生物学

CiteScore

4.00

自引率

4.30%

发文量

审稿时长

>12 weeks

期刊介绍： Recent discoveries in experimental and clinical research have led to impressive advances in our knowledge of the genetic and environmental mechanisms governing sex determination and differentiation, their evolution as well as the mutations or endocrine and metabolic abnormalities that interfere with normal gonadal development. ‘Sexual Development’ provides a unique forum for this rapidly expanding field. Its broad scope covers all aspects of genetics, molecular biology, embryology, endocrinology, evolution and pathology of sex determination and differentiation in humans and animals. It publishes high-quality original research manuscripts, review articles, short reports, case reports and commentaries. An internationally renowned and multidisciplinary editorial team of three chief editors, ten prominent scientists serving as section editors, and a distinguished panel of editorial board members ensures fast and author-friendly editorial processing and peer reviewing.