Stress and Disease Resistance in Crayfish (Procambarus clarkii) Breed “Huachizhen-1”

Q4 Environmental Science
Xin Ren, Lijing Xiong, Yunfei Tan, Xiaoyu Liu, Xi Zhu, X. Bai
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Abstract

Stress and disease are critical factors hindering the industrial development of red swamp crayfish (Procambarus clarkii). Breeding crayfish with stress- and disease-resistant characteristics can overcome these limitations and promote their industrial development. In this study, the crayfish breed F3, which exhibits rapid growth and a favoured haplotype combination of the immune genes R, ALF, and crustin2, encoding the Toll-like receptor, anti-lipopolysaccharide factor, and antimicrobial peptide, respectively, were selected as parents to breed offspring (the selected group (SG)). The genotype, stress resistance, and disease resistance of crayfish in the SG and unselected group (USG) were compared. The results showed that the ratio of the favoured haplotype was higher in the SG crayfish than in the USG crayfish, leading to stronger stress and disease resistance. Compared to that of the USG crayfish, the mortality of the SG crayfish subjected to stress during eight days of transport and challenged with bacteria (Aeromonas hydrophila or Vibrio parahaemolyticus) or white spot syndrome virus were significantly reduced by 60% and 20%, respectively (p < 0.05). Based on these results, the stress- and disease-resistant SG crayfish were named the “Huachizhen-1” breed. Additionally, the ratio of the unfavoured homozygous genotypes of R, ALF, and crustin2 sharply decreased, whereas those of the heterozygous genotypes increased together with stress and disease resistance during crayfish maturation under natural conditions, indicating that the heterozygotes of these genes also exhibit strong stress and disease resistance. All of this taken together, the crayfish breed “Huachizhen-1” may be applicable for improving stress and disease resistance and the production of crayfish.
克氏原螯虾品种“华池珍1号”的抗逆性和抗病性
胁迫和病害是阻碍克氏原螯虾(Procambarus clarkii)产业化发展的关键因素。培育具有抗逆性和抗病特性的小龙虾可以克服这些限制,促进小龙虾的产业化发展。本研究选择生长速度快且分别编码toll样受体、抗脂多糖因子和抗菌肽的免疫基因R、ALF和crustin2单倍型组合有利的小龙虾品种F3作为亲本,繁殖后代(选择组(SG))。比较了SG组和USG组小龙虾的基因型、抗逆性和抗病性。结果表明,与USG小龙虾相比,SG小龙虾的有利单倍型比例更高,因此具有更强的抗逆性和抗病能力。与USG小龙虾相比,SG小龙虾在8 d的运输过程中受到细菌(嗜水气单胞菌、副溶血性弧菌)和白斑综合征病毒的攻击,其死亡率分别显著降低了60%和20% (p < 0.05)。在此基础上,将具有抗逆性和抗病能力的SG小龙虾命名为“华池镇1号”品种。在自然条件下,小龙虾成熟过程中,R、ALF和crustin2纯合子的比例急剧下降,而杂合子的比例随着应激性和抗病性的增加而增加,说明这些基因的杂合子也表现出较强的应激性和抗病性。综上所述,“华池珍1号”小龙虾品种可用于提高小龙虾的抗逆性和抗病性,提高小龙虾的产量。
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
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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