Identification of bovine QTL for growth and carcass traits in Japanese Black cattle by replication and identical-by-descent mapping |
| |
Authors: | Akiko Takasuga Toshio Watanabe Yasushi Mizoguchi Takashi Hirano Naoya Ihara Atsushi Takano Kou Yokouchi Akira Fujikawa Kazuyoshi Chiba Naohiko Kobayashi Ken Tatsuda Toshiaki Oe Megumi Furukawa-Kuroiwa Atsuko Nishimura-Abe Tatsuo Fujita Kazuya Inoue Kazunori Mizoshita Atsushi Ogino Yoshikazu Sugimoto |
| |
Institution: | (1) Shirakawa Institute of Animal Genetics, Japan Livestock Technology Association, Odakura, Nishigo Fukushima, 961-8061, Japan;(2) Hokkaido Animal Research Center, Nishi, Shintoku Hokkaido, 081-0038, Japan;(3) Miyagi Prefectural Animal Industry Experiment Station, Iwadeyama, Osaki Miyagi, 989-6445, Japan;(4) Gifu Prefectural Livestock Research Institute, Kiyomi, Takayama Gifu, 506-0101, Japan;(5) Hyogo Prefectural Institute of Agriculture, Forestry & Fisheries, Kasai Hyogo, 679-0103, Japan;(6) Tottori Animal Husbandry Experiment Station, Kotoura, Touhaku Tottori, 689-2503, Japan;(7) Okayama Prefectural Center for Animal Husbandry & Research, Misaki, Kume Okayama, 709-3494, Japan;(8) Shimane Prefectural Animal Husbandry Experiment Station, Koshi, Izumo Simane, 693-0031, Japan;(9) Oita Prefectural Institute of Animal Industry, Kuju, Takeda Oita, 878-0201, Japan;(10) Miyazaki Prefectural Livestock Experiment Station, Takahara, Nishimorokata Miyazaki, 889-4411, Japan;(11) Cattle Breeding Development Institute of Kagoshima Prefecture, Osumi, So Kagoshima, 899-8212, Japan;(12) Livestock Improvement Association of Japan, Inc., Maebashi Gunma, 351-0121, Japan |
| |
Abstract: | To map quantitative trait loci (QTL) for growth and carcass traits in a purebred Japanese Black cattle population, we conducted
multiple QTL analyses using 15 paternal half-sib families comprising 7860 offspring. We identified 40 QTL with significant
linkages at false discovery rates of less than 0.1, which included 12 for intramuscular fat deposition called marbling and
12 for cold carcass weight or body weight. The QTL each explained 2%–13% of the phenotypic variance. These QTL included many
replications and shared hypothetical identical-by-descent (IBD) alleles. The QTL for CW on BTA14 was replicated in five families
with significant linkages and in two families with a 1% chromosome-wise significance level. The seven sires shared a 1.1-Mb
superior Q haplotype as a hypothetical IBD allele that corresponds to the critical region previously refined by linkage disequilibrium
mapping. The QTL for marbling on BTA4 was replicated in two families with significant linkages. The QTL for marbling on BTA6,
7, 9, 10, 20, and 21 and the QTL for body weight on BTA6 were replicated with 1% and/or 5% chromosome-wise significance levels.
There were shared IBD Q or q haplotypes in the marbling QTL on BTA4, 6, and 10. The allele substitution effect of these haplotypes ranged from 0.7 to
1.2, and an additive effect between the marbling QTL on BTA6 and 10 was observed in the family examined. The abundant and
replicated QTL information will enhance the opportunities for positional cloning of causative genes for the quantitative traits
and efficient breeding using marker-assisted selection.
Electronic Supplementary Material Electronic Supplementary material is available for this article at
and accessible for authorised users. |
| |
Keywords: | |
本文献已被 SpringerLink 等数据库收录! |
|