Adaptation in landlocked Atlantic salmon links genetics in wild and farmed salmon to smoltification.

IF 1.9 Q3 GENETICS & HEREDITY
Cairnduff R, Kjærner-Semb E, Ayllon F, Solberg M, Andersson E, Primmer C R, Perry W, Glover K A, Wargelius A
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Abstract

Increased knowledge of heritable traits in Atlantic Salmon (Salmo salar) is important to overcome bottlenecks in salmonid aquaculture. Atlantic salmonid populations, both landlocked and anadromous, represent an interesting model to gain insight into anadromy related traits, most notably, the probability to smoltify. While a previous study has identified several genomic regions diverging between anadromous and landlocked populations across the species range, the present study explores these data further with the aim to uncover if some of these genomic regions are linked to beneficial genetic traits associated with smoltification. In this study 17 of these loci were monitored in 669 anadromous salmon originating from 36 full-sibling families that had been reared under common garden conditions. The Smolt Index was calculated, using multiple visual markers, and provided a means of assessing smoltification stage. One SNP, located in Ssa04, showed a significant association with probability to smoltify, where individuals homozygous for the landlocked variant (LL) displayed a decrease in probability of smoltifying after one winter when compared with the homozygous for the anadromous variant (AA). This effect was independent of individual fish size. A separate common garden study comprising 200 individuals from either anadromous or landlocked strains showed that expression levels of ncor1, a thyroid mediator hormone located on the same chromosomal region (Ssa04), were significantly reduced in landlocked individuals post smoltification but remained constant in their anadromous counterparts. This study therefore suggests that while size is still the most important trigger for the induction of smoltification, there may also be an additional genetic component or trigger that has been 'lost' during the years deprived of SW transfer. In conclusion, the LL genotype identified here could potentially be used by the industry to delay smoltification and may also represent one of the first clues to the genetic regulation of smoltification in Atlantic salmon.

内陆大西洋鲑鱼的适应性将野生鲑鱼和养殖鲑鱼的遗传学与鲑鱼化联系起来。
增加对大西洋鲑(Salmo salar)遗传性状的了解对于克服鲑鱼养殖中的瓶颈问题非常重要。大西洋鲑鱼种群(包括内陆种群和溯河种群)是一个有趣的模型,有助于深入了解与溯河有关的性状,尤其是蜕皮的概率。之前的一项研究发现,溯河鱼类种群和内陆鱼类种群之间有几个基因组区域存在差异,本研究对这些数据进行了进一步探索,旨在发现其中一些基因组区域是否与蜕皮相关的有益遗传特征有关。本研究对来自 36 个全同胞家庭的 669 条溯河鲑鱼的 17 个基因位点进行了监测,这些溯河鲑鱼都是在普通花园条件下饲养的。利用多个可视标记计算出了蜕皮指数,为评估蜕皮阶段提供了一种方法。与溯河变异基因(AA)的同源个体相比,内陆变异基因(LL)的同源个体在一个冬季后的蜕皮概率会下降。这种影响与鱼的个体大小无关。另一项由溯河或内陆品系的200条个体组成的共同园研究表明,位于同一染色体区域(Ssa04)的甲状腺介导激素ncor1在内陆个体中的表达水平在脱壳后显著降低,但在溯河个体中则保持不变。因此,这项研究表明,虽然体型仍然是诱导蜕皮的最重要触发因素,但在缺乏西南转移的年份里,可能还有一个额外的遗传成分或触发因素被 "丢失 "了。总之,本研究发现的 LL 基因型有可能被该行业用于延迟鲑鱼蜕皮,也可能代表了大西洋鲑鱼蜕皮基因调控的第一批线索之一。
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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CiteScore
4.90
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