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Reproduction, Fertility and Development Reproduction, Fertility and Development Society
Vertebrate reproductive science and technology
RESEARCH ARTICLE

78 Evaluation of the genomic estimated breeding value of carcass traits in blastocyst-stage embryos derived from Japanese Black cattle

T. Fujii A , A. Naito A , H. Hirayama B , M. Kashima A , S. Kageyama A , H. Yoshino A , T. Hanamure C , Y. Domon C , H. Hayakawa C , T. Watanabe D and S. Moriyasu A
+ Author Affiliations
- Author Affiliations

A Hokkaido Animal Research Center, Shintoku, Hokkaido, Japan;

B Tokyo University of Agriculture, Abashiri, Hokkaido, Japan;

C Genetics Hokkaido Association, Sapporo, Hokkaido, Japan;

D Livestock Improvement Association Japan, Maebashi, Gunma, Japan

Reproduction, Fertility and Development 31(1) 164-165 https://doi.org/10.1071/RDv31n1Ab78
Published online: 3 December 2018

Abstract

Genomic selection based on a high-throughput microarray for genotyping single nucleotide polymorphism (SNP) is expected to accelerate genetic improvement in cattle. Recently, a genomic evaluation system for carcass traits, such as carcass weight and marbling score, is being established in Japanese Black cattle. To further increase genetic improvement efficiency in this breed, establishing a genomic evaluation system for pre-implantation embryos before embryo transfer (ET) is required. Here, we examined the correlation between genomic estimated breeding value (GEBV) of carcass traits calculated from embryonic (blastocyst) biopsy cells and from a corresponding calf produced by ET (Experiment 1); we also evaluated the pregnancy rate following ET of GEBV-evaluated blastocysts (GEBV blastocysts) preserved by vitrification (Experiment 2). In total, 16 Japanese Black dams and cryopreserved semen from 6 Japanese Black sires were used for producing in vivo blastocysts (Day 7-8). In Experiment 1, four blastocysts (IETS code 1) were divided into biopsy cells (15-20 cells) and biopsied embryos using a micromanipulator equipped with a micro blade. Biopsy cells were processed for DNA extraction and whole-genome amplification. Freshly biopsied embryos were transferred to recipient cows, and DNA was extracted from the blood or ear cells of the resulting 4 calves. Then SNP genotyping was performed using Illumina bovine LD BeadChip (Illumina, San Diego, CA, USA). The GEBV of 6 carcass traits (carcass weight, ribeye area, rib thickness, subcutaneous fat thickness, estimated yield percent, and marbling score) were calculated using phenotypic and genotypic data from 4,311 Japanese Black steers, and these were compared between biopsy cells and the corresponding calf. In Experiment 2, 134 blastocysts (IETS code 1 and 2) in total were biopsied (10-20 cells), and the biopsied embryos were vitrified by the cryotop method. Biopsy cells were processed for SNP genotyping as in Experiment 1, and the samples in which the call rate was more than 85% were used for GEBV calculation. Based on GEBV records, 24 vitrified GEBV blastocysts were warmed, cultured for 3 to 5 h, and 22 GEBV blastocysts that survived (re-expanded) post-culture were transferred to recipient cows. Pregnancy in these cows was diagnosed using ultrasonography during Day 55 to 60 of gestation. In Experiment 1, the SNP call rates of the biopsy cells and corresponding calf were 98.5 to 99.3% and 99.7 to 99.8%, respectively. The GEBV of 6 carcass traits from biopsy cells and from the corresponding calf had almost the same values. In Experiment 2, the SNP call rates of the biopsy cells were ranged from 26.1 to 99.3%. The GEBV of 6 carcass traits varied among full-sib embryos. The pregnancy rate following ET of vitrified GEBV blastocysts was 40.9% (9/22). These results suggest the possible application of a genomic evaluation system for carcass traits at the blastocyst stage in Japanese Black cattle. Further large-scale assessment of pregnancy rates following ET of cryopreserved GEBV blastocysts is required for practical application of the evaluation system.