Use of a gene encoding zona pellucida 4 as a female-specific marker for early stage sexual differentiation and size dimorphism in the pacific abalone Haliotis discus hannai

[Display omitted] •zp4 gene was used as a female-specific marker in Haliotis discus hannai.•Sexual differentiation occurred at 150–200 days after fertilization.•Female Haliotis discus hannai grew faster than males. Growth rates of Pacific abalone Haliotis discus hannai are an important trait affecti...

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Published in:Animal reproduction science 2021-02, Vol.225, p.106687-106687, Article 106687
Main Authors: Choi, Mi-Jin, Oh, Young Dae, Kim, Yeo Reum, Lim, Han Kyu, Kim, Jong-Myoung
Format: Article
Language:English
Subjects:
Growth
Pacific abalone
Sex-specific marker
Sexual differentiation
Sexual dimorphism
zp4
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Summary:[Display omitted] •zp4 gene was used as a female-specific marker in Haliotis discus hannai.•Sexual differentiation occurred at 150–200 days after fertilization.•Female Haliotis discus hannai grew faster than males. Growth rates of Pacific abalone Haliotis discus hannai are an important trait affecting the economic value in the abalone aquaculture industry. A reverse-transcription polymerase chain reaction (RT-PCR) analyses of tissues from H. discus hannai was conducted for sexually mature gonads to determine male- and female-specific target gene expression, including genes encoding zona pellucida domain 4 (zp4), sperm protein (sp) and lysin (lys), respectively. Sex-specific expression patterns of these gene expression, even in sexually immature abalone, indicate these genes can be used as sensitive and robust sex-specific molecular markers. The RT-PCR procedure was also performed to analyze tissues collected at various developmental stages (50-day intervals) beginning at fertilization to determine when sex differentiation and expression of sex-specific genes was initiated. Detection of zp4 transcript in tissues collected at 200 days post-fertilization (dpf) indicated egg-specific development starts at 150–200 dpf. To evaluate possible sex-specific differences in growth rate, there was conducting of a molecular marker-based sex identification of abalone from a population selected for rapid growth rate. In a group of large H. discus hannai, females were more prevalent than males. To assess the correlation between growth and sex, there was comparison of weights of 3-year-old Pacific abalone in specimens where there had been sex determinations by visual examination and molecular methods. The results indicated females weighed more (55.92 ± 9.38 g, n = 15) than males (43.64 ± 15.55 g, n = 6, P =  0.037), indicating females had a more rapid growth rate than males.
ISSN:0378-4320
1873-2232
DOI:10.1016/j.anireprosci.2021.106687