Innovative approach for high-throughput exploiting sex-specific markers in Japanese parrotfish Oplegnathus fasciatus.

IF 11.8 2区 生物学 Q1 MULTIDISCIPLINARY SCIENCES GigaScience Pub Date : 2024-01-02 DOI:10.1093/gigascience/giae045
Yongshuang Xiao, Zhizhong Xiao, Lin Liu, Yuting Ma, Haixia Zhao, Yanduo Wu, Jinwei Huang, Pingrui Xu, Jing Liu, Jun Li
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Abstract

Background: The use of sex-specific molecular markers has become a prominent method in enhancing fish production and economic value, as well as providing a foundation for understanding the complex molecular mechanisms involved in fish sex determination. Over the past decades, research on male and female sex identification has predominantly employed molecular biology methodologies such as restriction fragment length polymorphism, random amplification of polymorphic DNA, simple sequence repeat, and amplified fragment length polymorphism. The emergence of high-throughput sequencing technologies, particularly Illumina, has led to the utilization of single nucleotide polymorphism and insertion/deletion variants as significant molecular markers for investigating sex identification in fish. The advancement of sex-controlled breeding encounters numerous challenges, including the inefficiency of current methods, intricate experimental protocols, high costs of development, elevated rates of false positives, marker instability, and cumbersome field-testing procedures. Nevertheless, the emergence and swift progress of PacBio high-throughput sequencing technology, characterized by its long-read output capabilities, offers novel opportunities to overcome these obstacles.

Findings: Utilizing male/female assembled genome information in conjunction with short-read sequencing data survey and long-read PacBio sequencing data, a catalog of large-segment (>100 bp) insertion/deletion genetic variants was generated through a genome-wide variant site-scanning approach with bidirectional comparisons. The sequence tagging sites were ranked based on the long-read depth of the insertion/deletion site, with markers exhibiting lower long-read depth being considered more effective for large-segment deletion variants. Subsequently, a catalog of bulk primers and simulated PCR for the male/female variant loci was developed, incorporating primer design for the target region and electronic PCR (e-PCR) technology. The Japanese parrotfish (Oplegnathus fasciatus), belonging to the Oplegnathidae family within the Centrarchiformes order, holds significant economic value as a rocky reef fish indigenous to East Asia. The criteria for rapid identification of male and female differences in Japanese parrotfish were established through agarose gel electrophoresis, which revealed 2 amplified bands for males and 1 amplified band for females. A high-throughput identification catalog of sex-specific markers was then constructed using this method, resulting in the identification of 3,639 (2,786 INS/853 DEL, ♀ as reference) and 3,672 (2,876 INS/833 DEL, ♂ as reference) markers in conjunction with 1,021 and 894 high-quality genetic sex identification markers, respectively. Sixteen differential loci were randomly chosen from the catalog for validation, with 11 of them meeting the criteria for male/female distinctions. The implementation of cost-effective and efficient technological processes would facilitate the rapid advancement of genetic breeding through expediting the high-throughput development of sex genetic markers for various species.

Conclusions: Our study utilized assembled genome information from male and female individuals obtained from PacBio, in addition to data from short-read sequencing data survey and long-read PacBio sequencing data. We extensively employed genome-wide variant site scanning and identification, high-throughput primer design of target regions, and e-PCR batch amplification, along with statistical analysis and ranking of the long-read depth of the variant sites. Through this integrated approach, we successfully compiled a catalog of large insertion/deletion sites (>100 bp) in both male and female Japanese parrotfish.

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高通量利用日本鹦嘴鱼性别特异性标记的创新方法。
背景:使用性别特异性分子标记已成为提高鱼类产量和经济价值的重要方法,同时也为了解鱼类性别决定所涉及的复杂分子机制奠定了基础。在过去几十年中,有关雌雄性别鉴定的研究主要采用限制性片段长度多态性、多态 DNA 随机扩增、简单序列重复和扩增片段长度多态性等分子生物学方法。高通量测序技术(尤其是 Illumina)的出现,使得单核苷酸多态性和插入/缺失变异成为研究鱼类性别鉴定的重要分子标记。性别控制育种的发展遇到了许多挑战,包括现有方法效率低、实验方案复杂、开发成本高、假阳性率高、标记不稳定以及现场测试程序繁琐。尽管如此,PacBio 高通量测序技术的出现和迅速发展(其特点是长读数输出能力)为克服这些障碍提供了新的机遇:研究结果:利用男性/女性组装基因组信息,结合短线程测序数据调查和长线程 PacBio 测序数据,通过双向比较的全基因组变异位点扫描方法,生成了大段(>100 bp)插入/缺失遗传变异目录。根据插入/缺失位点的长读取深度对序列标记位点进行排序,认为长读取深度较低的标记对大片段缺失变异更有效。随后,结合目标区域引物设计和电子 PCR(e-PCR)技术,开发了雄性/雌性变异位点的大量引物和模拟 PCR 目录。日本鹦嘴鱼(Oplegnathus fasciatus)隶属于半陆纲鹦嘴鱼科,是东亚特有的岩礁鱼类,具有重要的经济价值。通过琼脂糖凝胶电泳建立了快速鉴定日本鹦嘴鱼雌雄差异的标准,结果显示雄性有 2 条扩增带,雌性有 1 条扩增带。随后,利用该方法构建了性别特异性标记的高通量鉴定目录,分别鉴定出3639个(2786个INS/853个DEL,♀为参考)和3672个(2876个INS/833个DEL,♂为参考)标记,以及1021个和894个高质量遗传性别鉴定标记。从目录中随机选择了 16 个差异位点进行验证,其中 11 个符合雌雄鉴别标准。通过加快不同物种性别遗传标记的高通量开发,实施经济高效的技术流程将促进遗传育种的快速发展:我们的研究利用了从 PacBio 获得的雌雄个体基因组信息,以及短线程测序数据调查和长线程 PacBio 测序数据。我们广泛采用了全基因组变异位点扫描和鉴定、目标区域的高通量引物设计、e-PCR批量扩增,以及变异位点长读数深度的统计分析和排序。通过这种综合方法,我们成功编制了雌雄日本鹦鹉鱼的大插入/缺失位点(>100 bp)目录。
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来源期刊
GigaScience
GigaScience MULTIDISCIPLINARY SCIENCES-
CiteScore
15.50
自引率
1.10%
发文量
119
审稿时长
1 weeks
期刊介绍: GigaScience seeks to transform data dissemination and utilization in the life and biomedical sciences. As an online open-access open-data journal, it specializes in publishing "big-data" studies encompassing various fields. Its scope includes not only "omic" type data and the fields of high-throughput biology currently serviced by large public repositories, but also the growing range of more difficult-to-access data, such as imaging, neuroscience, ecology, cohort data, systems biology and other new types of large-scale shareable data.
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