Genomic evaluation of body weight traits in a F<sub>2</sub> mixture of commercial broiler and native chicken-Reference-Cited by-同舟云学术

Genomic evaluation of body weight traits in a F₂ mixture of commercial broiler and native chicken

Published:2023-06-01 Issue:2 Volume:41 Page:123-137
ISSN:2300-8342
Container-title:Animal Science Papers and Reports
language:en
Short-container-title:

Author:

Asadollahi Hamed¹,Mahyari Saeid Ansari¹,Torshizi Rasoul Vaez²,Emrani Hossein³,Ehsani Alireza²

Affiliation:

1. 1 Department of Animal Science, Faculty of Agriculture , Isfahan University of Technology , Isfahan , Iran

2. 2 Department of Animal Science, Faculty of Agriculture , Tarbiat Modares University , Tehran , Iran

3. 3 Animal Science Research Institute of Iran, Agricultural Research, Education and Extension Organization (AREEO) , Karaj , Iran

Abstract

Abstract Genetic improvement of body weight (BW) traits has received major consideration in the poultry industry due to their economic and environmental implications. With the rapid implementation of genomic selection (GS) in the poultry industry and a decrease in the cost of genotyping, genomic prediction (GP) is a feasible way to increase productivity. Moreover, a pre-selection of SNPs could represent a reasonable option to speed up GP. We used 312 F2 broiler chicken genotyped with 60K Illumina Beadchip to investigate the effect of reduced SNP densities on accuracy and bias of prediction using single-step genomic BLUP (ssGBLUP) for BW at 2-4 weeks of age (488 chickens). To investigate the effect of reduced SNP densities by varying minor allele frequency (MAF), SNPs were grouped into five subgroups with MAF of 0.05-0.1, 0.1-0.2, 0.2-0.3, 0.3-0.4 and 0.4-0.5. The accuracy and bias of genomic predictions from different MAF bins were compared to that using a standard array of 60k SNP genotypes and the traditional BLUP method. Our study showed that using a subset of common SNPs genotypes may increase accuracy of genomic predictions compared to using all SNPs, specifically in the studied F2 population with a limited number of genotyped/phenotyped individuals.

Publisher

Walter de Gruyter GmbH

Subject

General Veterinary,Genetics,Animal Science and Zoology,Biotechnology

Link

https://www.sciendo.com/pdf/10.2478/aspr-2023-0003

Reference47 articles.

1. ADEYINKA I.A., ONI O.O., NWAGU B.I., ADEYINKA F.D., 2006 - Genetic parameter estimates of body weights of naked neck broiler chickens. International Journal of Poultry Science 5(6), 589-592.

2. AGUILAR I., MISZTAL I., TSURUTA S., WIGGANS G.R., LAWLOR T.J., 2011- Multiple trait genomic evaluation of conception rate in Holsteins. Journal of Dairy Science 94(5), 2621-2624.

3. BERMANN M., LEGARRA A., HOLLIFIELD M.K., MASUDA Y., LOURENCO D., MISZTAL I., 2021- Validation of single‐step GBLUP genomic predictions from threshold models using the linear regression method: An application in chicken mortality. Journal of Animal Breeding and Genetics 138(1), 4-13.

4. BRADBURY P.J., ZHANG Z., KROON D. E., CASSTEVENS T.M., RAMDOSS Y., BUCKLER E.S., 2007 - TASSEL: software for association mapping of complex traits in diverse samples. Bioinformatics 23(19), 2633-2635.

5. CHANG C.C., CHOW C.C., TELLIER L.C., VATTIKUTI S., PURCELL S.M., LEE J.J., 2015 -Second-generation PLINK: rising to the challenge of larger and richer datasets. Gigascience 4(1), s13742-015.