Heritability of growth traits and correlation with hepatic gene expression among hybrid striped bass exhibiting extremes in performance

S. A. Fuller, B. Beck, Matthew E. McEntire, E. Peatman, J. Abernathy
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引用次数: 5

Abstract

Abstract Hybrid striped bass is a major aquaculture species in the United States. Artificial breeding of this species can introduce large variation in growth during production to market size. To assess the genetic and nutrigenomic basis behind growth variability in these hybrids, fingerlings (n = 5072) from 47 families were size-matched and communally grown in earthen ponds for 115 days. Families were then ranked by weight gain and individuals from the three fastest growing (mean 240.8 ± 9.75 g; 242.0 ± 11.52 mm) and three slowest growing families (mean 153.5 ± 52.38 g; 223.3 ± 21.31 mm) were collected for liver RNA sequencing. As expected, growth characteristics in hybrid striped bass are highly heritable (p < 0.0001). Through differential gene expression analysis we identified 86 genes that were responsive between groups including 40 up-regulated (1.89˂fold-change < 7.66) and 46 down-regulated (−1.71 > fold-change ˃−4.59) genes in the largest fish. This included two somatic growth-related genes, growth factor receptor gene and a gene encoding an insulin-like growth factor binding protein, that may directly explain some of the genetic variation between families. Several additional genes involved in metabolic pathways such as glycolysis/gluconeogenesis and lipid biosynthesis were also revealed. The candidate gene list may also provide some evidence that both physiological and behavioral factors may be influencing growth differences in communally reared fish.
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性能极值杂交条纹鲈鱼生长性状的遗传力及其与肝脏基因表达的相关性
杂交条纹鲈鱼是美国主要的水产养殖品种。该品种的人工育种可以在生产到市场规模期间引入较大的生长变化。为了评估这些杂交种生长变异性背后的遗传和营养基因组基础,研究人员将47个科的5072只鱼种大小匹配,并在土池中共同生长115天。然后按增重和个体数对3个生长最快的家庭进行排序(平均240.8±9.75 g;242.0±11.52 mm)和三个生长最慢的科(平均153.5±52.38 g;223.3±21.31 mm)进行肝脏RNA测序。正如预期的那样,杂交条纹鲈鱼的生长特性具有高度的遗传性(p < 0.0001)。通过差异基因表达分析,我们鉴定出86个基因在两组间具有响应性,其中在最大的鱼中有40个基因表达上调(1.89倍小于折射率变化< 7.66),46个基因表达下调(- 1.71倍小于折射率变化< 4.59)。这包括两个体细胞生长相关基因,生长因子受体基因和一个编码胰岛素样生长因子结合蛋白的基因,这可能直接解释家族之间的一些遗传变异。此外,还发现了一些参与糖酵解/糖异生和脂质生物合成等代谢途径的其他基因。候选基因列表也可能提供一些证据,表明生理和行为因素可能影响共同养殖鱼类的生长差异。
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Cogent Biology
Cogent Biology MULTIDISCIPLINARY SCIENCES-
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