Background Umami is a Japanese term for the fifth basic taste and is an important sensory property of beef palatability. Inosine 5′-monophosphate (IMP) contributes to umami taste in beef. Thus, the overall change in concentration of IMP and its degradation products can potentially affect the beef palatability. In this study, we investigated the genetic architecture of IMP and its degradation products in Japanese Black beef. First, we performed genome-wide association study (GWAS), candidate gene analysis, and functional analysis to detect the causal variants that affect IMP, inosine, and hypoxanthine. Second, we evaluated the allele frequencies in the different breeds, the contribution of genetic variance, and the effect on other economical traits using the detected variants.ResultsA total of 574 Japanese Black cattle were genotyped using the Illumina BovineSNP50 BeadChip and were then used for GWAS. The results of GWAS showed that the genome-wide significant single nucleotide polymorphisms (SNPs) on BTA9 were detected for IMP, inosine, and hypoxanthine. The ecto-5′-nucleotidase (NT5E) gene, which encodes the enzyme NT5E for the extracellular degradation of IMP to inosine, was located near the significant region on BTA9. The results of candidate gene analysis and functional analysis showed that two non-synonymous SNPs (c.1318C > T and c.1475 T > A) in NT5E affected the amount of IMP and its degradation products in beef by regulating the enzymatic activity of NT5E. The Q haplotype showed a positive effect on IMP and a negative effect on the enzymatic activity of NT5E in IMP degradation. The two SNPs were under perfect linkage disequilibrium in five different breeds, and different haplotype frequencies were seen among breeds. The two SNPs contribute to about half of the total genetic variance in IMP, and the results of genetic relationship between IMP and its degradation products showed that NT5E affected the overall concentration balance of IMP and its degradation products. In addition, the SNPs in NT5E did not have an unfavorable effect on the other economical traits.ConclusionBased on all the above findings taken together, two non-synonymous SNPs in NT5E would be useful for improving IMP and its degradation products by marker-assisted selection in Japanese Black cattle.Electronic supplementary materialThe online version of this article (doi: 10.1186/s12864-017-4275-4) contains supplementary material, which is available to authorized users.
We performed candidate gene analysis to identify SNP in the chicken ovocalyxin-32 (OCX-32) gene in the F(2) resource population, to develop a PCR-RFLP method for genotyping and to evaluate the associations of the gene polymorphism with egg production traits. The F(2) resource population-comprising 272 chickens-was obtained by crossing White Leghorn (WL) males and Rhode Island Red (RIR) females. They were measured for egg production traits and used for candidate gene analysis. Among parental individuals of the F(2) population, 2 novel nonsynonymous polymorphisms (c.267T>G and c.494A>C) and 1 known nonsynonymous polymorphism (c.381G>C) in the coding sequences of the chicken OCX-32 gene were detected. The PCR-RFLP method was used for screening the chickens of the F(2) population. In parental populations, genotype c.267T>G and c.494A>C were segregated within WL and RIR breeds, respectively, but genotype c.381G>C was breed-specific SNP between WL and RIR breeds. A total of 4 haplotypes were constructed based on the 3 SNP in parental populations, and there was no recombination between c.267T>G and c.494A>C. There was a significant association (P < 0.05) between the OCX-32 gene SNP and egg production traits, but there was no significant association between the haplotypes of the OCX-32 gene and egg production traits in the F(2) population. In the present study, there was the most significant association between c.381G>C of the OCX-32 gene and rate of egg production. The current study is the first step to confirm the relationship between OCX-32 gene polymorphisms and egg production traits.
Insulin-like growth factor-1 (IGF1) plays an important role in muscle development in chickens. In this study, an F2 chicken population of 362 individuals, obtained from an intercross between high breast muscle yield line males and low breast muscle yield (LB) line females, was constructed for investigating the associations between IGF1 gene and breast muscle yields. The IGF1 sequence was investigated in the grandparents. There were no differences in the exon sequences. However, sequence analysis of the IGF1 promoter revealed a known single nucleotide polymorphism (g.570C>A) in LB line grandparents. PCR - restriction fragment length polymorphism was used for screening the F2 population, which was evaluated for body weight (BW), carcass weight (CW), breast muscle weight (BMW), and breast fillet weight (BFW). Significant associations with the polymorphism were detected for BMW, BFW, BMW% and BFW%, although there were no associations between the polymorphism and BW or CW. The allelic effect on BMW, BFW, BMW% and BFW% acted in additive and dominance modes. We confirmed that the g.570C>A polymorphism is significantly associated with breast muscle yields in the F2 population. Therefore, this polymorphism in the IGF1 gene may help improve breast muscle yields by marker-assisted selection.
The ornithine decarboxylase (ODC) gene is a candidate gene for growth and carcass traits. It is located on chicken chromosome 3 in a region where QTL for growth and carcass traits have previously been detected in the F₂ population. The objectives of this study were to identify polymorphisms of the ODC gene in an F₂ resource population and to examine the effects of these ODC polymorphisms on growth and carcass traits. The F₂ resource population was obtained by crossing a Shamo male and White Plymouth Rock females. The F₂ population was then measured for growth and carcass traits and used for positional candidate gene analysis. A total of 6 novel SNP and a novel indel mutation were identified in the parental population. Three SNP (g.-638A>G, g.-465C>T, and g.-353C>T) and a 4-bp indel mutation (g.-633_-632ins) in the promoter region of the ODC gene were identified in the parental population, and 2 haplotypes composed of these mutations were segregated in the parental population. A QTL analysis was performed, and the QTL for some growth and carcass traits were detected at a significant level and on a similar position to the ODC gene. Significant associations were found between haplotypes in the promoter region of the ODC gene and these traits in the F₂ population, and the effect of haplotype on BW at 9 wk of age was the most significant. The haplotypes of the ODC gene found in this study might help in understanding the genetic structure of growth and carcass traits and in improving these traits directly by MAS. Therefore, further functional studies are necessary to evaluate the effects of promoter mutations at a molecular level.
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