Development of nutrigenomic based precision management model for Hanwoo steers.

IF 2.7 3区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE Journal of Animal Science and Technology Pub Date : 2023-05-01 DOI:10.5187/jast.2023.e38
Chandima Gajaweera, Dong Hun Kang, Doo Ho Lee, Yeong-Kuk Kim, Bo Hye Park, Sun Sik Chang, Ui Hyung Kim, Seung Hwan Lee, Ki Yong Chung
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引用次数: 1

Abstract

Focusing high marble deposition, Hanwoo feedlot system uses high-energy diet over the prolonged fattening period. However, due to the individual genetic variation, around 40% of them are graded into inferior quality grades (QG), despite they utilized the same resources. Therefore, focusing on development of a nutrigenomic based precision management model, this study was to evaluated the response to the divergent selection on genetic merit for marbling score (MS), under different dietary total digestible nutrient (TDN) levels. Total of 111 calves were genotyped and initially grouped according to estimated breeding value (high and low) for marbling score (MS-EBV). Subsequently, managed under two levels of feed TDN%, over the calf period, early, middle, and final fattening periods following 2 × 2 factorial arrangement. Carcasses were evaluated for MS, Back fat thickness (BFT) and Korean beef quality grading standard. As the direct response to the selection was significant, the results confirmed the importance of initial genetic grouping of Hanwoo steers for MS-EBV. However, dietary TDN level did not show an effect (p > 0.05) on the MS. Furthermore, no genetic-by-nutrition interaction for MS (p > 0.05) was also observed. The present results showed no correlation response on BFT (p > 0.05), which indicates that the selection based on MS-EBV can be used to enhance the MS without undesirable effect on BFT. Ultimate turnover of the Hanwoo feedlot operation is primarily determined by the QGs. The present model shows that the initial grouping for MS-EBV increased the proportion of carcasses graded for higher QGs (QG1++ and QG1+) by approximately 20%. Moreover, there appear to be a potential to increase the proportion of QG 1++ animals among the high-genetic group by further increasing the dietary energy content. Overall, this precision management strategy suggests the importance of adopting an MS based initial genetic grouping system for Hanwoo steers with a subsequent divergent management based on dietary energy level.

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基于营养基因组学的韩宇舵机精细化管理模型的开发。
针对高大理石沉积,韩宇饲养场系统在长时间育肥期间使用高能量饲料。然而,由于个体遗传差异,尽管它们利用了相同的资源,但其中约40%被评为劣质等级(QG)。因此,本研究旨在建立一种基于营养基因组学的精确管理模型,以评估不同饲粮总可消化养分(TDN)水平下大理石纹评分(MS)遗传优势分化选择的响应。对111头犊牛进行基因分型,并根据大理石纹评分(MS-EBV)的估计育种值(高、低)进行初步分组。随后,按照2 × 2因子安排,在犊牛期、早期、中期和最终育肥期按两种饲料TDN%水平进行管理。采用MS、背膘厚(BFT)和韩牛肉质量分级标准对胴体进行评价。由于对选择的直接反应显著,结果证实了韩牛对MS-EBV的初始遗传分组的重要性。饲粮TDN水平对MS无显著影响(p > 0.05),且不存在遗传-营养互作作用(p > 0.05)。结果表明,基于MS- ebv的选择可以在不影响BFT的情况下提高MS。韩宇饲养场运营的最终营业额主要由qg决定。该模型显示,MS-EBV的初始分组使高QGs (QG1++和QG1+)的胴体比例增加了约20%。此外,进一步提高饲粮能量含量有可能提高qg1 ++在高遗传组中的比例。总的来说,这种精确管理策略表明,采用基于MS的初始遗传分组系统对韩宇阉牛具有重要意义,随后根据日粮能量水平进行分散管理。
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来源期刊
Journal of Animal Science and Technology
Journal of Animal Science and Technology Agricultural and Biological Sciences-Food Science
CiteScore
4.50
自引率
8.70%
发文量
96
审稿时长
7 weeks
期刊介绍: Journal of Animal Science and Technology (J. Anim. Sci. Technol. or JAST) is a peer-reviewed, open access journal publishing original research, review articles and notes in all fields of animal science. Topics covered by the journal include: genetics and breeding, physiology, nutrition of monogastric animals, nutrition of ruminants, animal products (milk, meat, eggs and their by-products) and their processing, grasslands and roughages, livestock environment, animal biotechnology, animal behavior and welfare. Articles generally report research involving beef cattle, dairy cattle, pigs, companion animals, goats, horses, and sheep. However, studies involving other farm animals, aquatic and wildlife species, and laboratory animal species that address fundamental questions related to livestock and companion animal biology will also be considered for publication. The Journal of Animal Science and Technology (J. Anim. Technol. or JAST) has been the official journal of The Korean Society of Animal Science and Technology (KSAST) since 2000, formerly known as The Korean Journal of Animal Sciences (launched in 1956).
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