Candidate genes for longitudinal traits under sequential sampling in beef cattle

IF 1.9 3区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Virgínia Mara Pereira Ribeiro, Gabriela Canabrava Gouveia, Fabio Luiz Buranelo Toral
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Abstract

Both the measurement age of a longitudinal trait and the common pre-sampling procedures used in beef cattle herds may affect the identification of a functional candidate gene (FCG) that is potentially associated with a trait. To identify the FCG that takes part in the genetic control of body weight at five different ages in a beef cattle population with and without sequential sampling, the animals were weighed at different measurement events, around 330, 385, 440, 495 and 550 days old. Genetic parameters were estimated for body weight at each age using a single trait (STM) and a random regression model (RRM). In addition, two different databases were used to estimate the genetic parameters: the first (DB100) was formed by all animals that were weighed in the five measurement events, and the second (DB70) has records of the same population, considering that 70% of the heaviest animals were selected after each measurement event. For DB100, genome-wide association studies (GWAS) were performed with 21,667 SNP markers to identify genomic windows that explained at least 1% of the genetic variance. Additionally, prioritization analyses were performed and FCGs were selected. We associated seven different FCGs with body weight at different ages. Among them, the gene DUSP10 was suggested as FCG in all five ages evaluated. Genetic parameters estimated for body weight using DB100 were similar when STM and RRM were applied. However, when DB70 was used as phenotypic data, there were differences between the two models. When the STM was applied, there were differences between the genetic parameters estimated for body weight when DB100 or DB70 were used as sources of phenotypes, but not for the estimates obtained with RRM. The importance of each gene for animal growth can change at different ages, and different genes may be more relevant to body weight at each different growth stage for beef cattle. Besides, sequential sampling can affect the GWAS results of a longitudinal trait. The age of the animal when a longitudinal trait is measured and pre-sampling can also contribute to inconsistencies in GWAS results for body weight in beef cattle, depending on the time when that data were collected, and consequently on the identification of FCG between studies, even when models that consider a covariance structure are used.

肉牛纵向性状的候选基因。
纵向性状的测量年龄和肉牛群中使用的常见预采样程序都可能影响潜在与性状相关的功能候选基因(FCG)的鉴定。为了确定参与肉牛种群中五个不同年龄体重遗传控制的FCG,在有和没有顺序采样的情况下,在不同的测量事件中对动物进行称重,分别为330、385、440、495和550 天以前。使用单一性状(STM)和随机回归模型(RRM)估计每个年龄体重的遗传参数。此外,还使用了两个不同的数据库来估计遗传参数:第一个数据库(DB100)由在五次测量事件中称重的所有动物组成,第二个数据库(DB20)具有相同种群的记录,考虑到70%的最重动物是在每次测量事件后选择的。对于DB100,用21667个SNP标记进行了全基因组关联研究(GWAS),以确定解释至少1%遗传变异的基因组窗口。此外,还进行了优先级分析,并选择了FCG。我们将七种不同的FCG与不同年龄的体重联系起来。其中,DUSP10基因在所有五个年龄段均被认为是FCG。当应用STM和RRM时,使用DB100估计的体重遗传参数相似。然而,当使用DB70作为表型数据时,两个模型之间存在差异。当应用STM时,当DB100或DB70用作表型来源时,体重估计的遗传参数之间存在差异,但RRM获得的估计值不存在差异。每个基因对动物生长的重要性在不同的年龄会发生变化,不同的基因可能与肉牛在每个不同生长阶段的体重更相关。此外,顺序抽样可以影响纵向性状的GWAS结果。测量纵向特征和预采样时的动物年龄也可能导致肉牛体重GWAS结果的不一致,这取决于数据收集的时间,因此也取决于研究之间FCG的识别,即使使用了考虑协方差结构的模型。
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来源期刊
Journal of Animal Breeding and Genetics
Journal of Animal Breeding and Genetics 农林科学-奶制品与动物科学
CiteScore
5.20
自引率
3.80%
发文量
58
审稿时长
12-24 weeks
期刊介绍: The Journal of Animal Breeding and Genetics publishes original articles by international scientists on genomic selection, and any other topic related to breeding programmes, selection, quantitative genetic, genomics, diversity and evolution of domestic animals. Researchers, teachers, and the animal breeding industry will find the reports of interest. Book reviews appear in many issues.
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