GROWTH AND EXPRESSION PATTERN OF GROWTH-RELATED GENES IN THE FAST-GROWING GIANT GOURAMI Osphronemus goramy

Q4 Environmental Science Indonesian Aquaculture Journal Pub Date : 2021-12-30 DOI:10.15578/iaj.16.2.2021.79-89
Siska Aliyas Sandra, H. Nasrullah, H. Arfah, Muhammad Zairin Jr., A. Alimuddin
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Abstract

Growth improvement of the giant gourami through molecular assisted selection offers a breakthrough solution regarding the slow growth problem in culturing the fish species. However, gene molecular expression studies and gene mapping information are scarce for this species. This study aimed to evaluate the growth, expression of the growth-related genes and compare the gene expressions between fast-growing (FG) and slow-growing (SG) fish. The polymorphism screenings were also conducted within the GH sequence of the FG and SG populations. Fish growth was analyzed by measuring length and weight once a month. The expression levels of GH, IGF1, AMPK, ARS-I, ALT, and AST genes were analyzed using real-time PCR. Twenty-five days old fish were reared for 30 days. The fish were continuously reared separately based on their body weight (BW) for 85 days until reaching 140 days old. At the end of the rearing period, the BW growth rate of the FG population was 1.569-fold higher, and body length (BL) growth was 1.056-fold higher than the SG population. FG fish have higher gene expression than the SG fish, indicating the important role of gene expression in fish growth. The polymorphisms screening within the GH sequences showed no significant difference between FG and SG fish of giant gourami. These research results provide valuable information in developing the marker-assisted selection for growth traits in giant gourami.
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生长最快的大熊猫GOURAMI Osphronemus goramy的生长及生长相关基因的表达模式
通过分子辅助选择改善巨型钩藤的生长,为解决鱼类养殖中的缓慢生长问题提供了突破性的解决方案。然而,该物种的基因分子表达研究和基因定位信息很少。本研究旨在评估生长相关基因的生长和表达,并比较快速生长(FG)和慢速生长(SG)鱼类的基因表达。在FG和SG群体的GH序列中也进行了多态性筛选。通过每月测量一次鱼的长度和重量来分析鱼的生长情况。使用实时PCR分析GH、IGF1、AMPK、ARS-I、ALT和AST基因的表达水平。25天大的鱼被饲养了30天。这些鱼根据它们的体重(BW)连续单独饲养85天,直到达到140天大。在饲养期结束时,FG群体的体重增长率是SG群体的1.569倍,体长(BL)增长率是SG-群体的1.056倍。FG鱼的基因表达高于SG鱼,表明基因表达在鱼类生长中的重要作用。GH序列中的多态性筛选显示,巨型钩藤FG鱼和SG鱼之间没有显著差异。这些研究结果为开展大白菜生长性状的标记辅助选择提供了有价值的信息。
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来源期刊
Indonesian Aquaculture Journal
Indonesian Aquaculture Journal Environmental Science-Water Science and Technology
CiteScore
0.50
自引率
0.00%
发文量
9
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