Kause Antti, Ritola Ossi, Paananen Tuija
MTT Agrifood Research Finland, Biotechnology and Food Research, Biometrical Genetics, 31600 Jokioinen, Finland.
Genet Sel Evol. 2007 Sep-Oct;39(5):529-43. doi: 10.1186/1297-9686-39-5-529. Epub 2007 Sep 27.
Genetic analysis of disorder incidence in farmed animals is challenged by two factors. Disorders in different cohorts and environments could be caused by different factors, leading to changes in heritability and to less than unity genetic correlations across cohorts. Moreover, due to computational limitations, liability scale heritabilities at very low incidence may differ from those estimated at higher incidence. We tested whether these two dilemmas occur in skeletal deformations of farmed salmonids using multigeneration data from the Finnish rainbow trout breeding programme and previous salmonid studies. The results showed that heritability was close to zero in cohorts in which management practices maintained incidence at a low level. When there was a management failure and incidence was unusually high, heritability was elevated. This may be due to computational limitations at very low incidence and/or because deformations are induced by different factors in different cohorts. Most genetic correlations between deformations recorded in different generations were weakly to strongly positive. However, also negative correlations between generations were present, showing that high liability at one time can be genetically connected to low liability at another time. The results emphasise that genetic architecture of binary traits can be influenced by trait expression.
养殖动物疾病发生率的遗传分析受到两个因素的挑战。不同群体和环境中的疾病可能由不同因素引起,导致遗传力发生变化,且不同群体间的遗传相关性小于1。此外,由于计算限制,极低发病率下的易患性尺度遗传力可能与较高发病率下估计的遗传力不同。我们利用芬兰虹鳟育种计划的多代数据和先前的鲑科鱼类研究,测试了养殖鲑科鱼类骨骼变形中是否存在这两个难题。结果表明,在管理措施将发病率维持在较低水平的群体中,遗传力接近于零。当出现管理失误且发病率异常高时,遗传力会升高。这可能是由于极低发病率下的计算限制和/或因为不同群体中的变形由不同因素诱发。不同世代记录的变形之间的大多数遗传相关性为弱到强的正相关。然而,世代之间也存在负相关,表明某一时期的高易患性在遗传上可能与另一时期的低易患性相关。结果强调二元性状的遗传结构可能受性状表达的影响。