Genomic selection has been demonstrated as a powerful technology to revolutionize animal breeding. However, marker density and minor allele frequency can affect the predictive ability of genomic estimated breeding val...Genomic selection has been demonstrated as a powerful technology to revolutionize animal breeding. However, marker density and minor allele frequency can affect the predictive ability of genomic estimated breeding values (GEBVs). To investigate the impact of marker density and minor allele frequency on predictive ability, we estimated GEBVs by constructing the different subsets of single nucleotide polymorphisms (SNPs) based on varying markers densities and minor allele frequency (MAF) for average daily gain (ADG), live weight (LW) and carcass weight (CW) in 1 059 Chinese Simmental beef cattle. Two strategies were proposed for SNP selection to construct different marker densities: 1) select evenly-spaced SNPs (Strategy 1 ), and 2) select SNPs with large effects estimated from BayesB (Strategy 2). Furthermore, predictive ability was assessed in terms of the correlation between predicted genomic values and corrected phenotypes from 10-fold cross-validation. Predictive ability for ADG, LW and CW using autosomal SNPs were 0.13+0.002, 0.21+0.003 and 0.25+0.003, respectively. In our study, the predictive ability increased dramatically as more SNPs were included in analysis until 200K for Strategy 1. Under Strategy 2, we found the predictive ability slightly increased when marker densities increased from 5K to 20K, which indicated the predictive ability of 20K (3% of 770K) SNPs with large effects was equal to the predictive ability of using all SNPs. For different MAF bins, we obtained the highest predictive ability for three traits with MAF bin 0.01-0.1. Our result suggested that designing a low-density chip by selecting low frequency markers with large SNP effects sizes should be helpful for commercial application in Chinese Simmental cattle.展开更多
Japanese Black cattle are a beef breed and well known to excel in carcass quality, but the details of genetic architectures for carcass traits in beef breeds including this breed are still poorly understood. The objec...Japanese Black cattle are a beef breed and well known to excel in carcass quality, but the details of genetic architectures for carcass traits in beef breeds including this breed are still poorly understood. The objective of this study was to estimate the degree of additive genetic variance explained by single nucleotide polymorphism (SNP) marker groups with different levels of minor allele frequency (MAF) for marbling score and carcass weight in Japanese Black cattle. Phenotypic data on 872 fattened steers with the genotype information about 40,000 autosomal SNPs were analyzed using two different statistical models: one considering only SNPs selected based on MAF (model 1) and the other also considering all remaining SNPs as the different term (model 2). All available SNPs were classified into 10 groups based on their MAFs. For both traits, the estimated proportions of additive genetic variance explained by SNPs selected based on their MAFs using model 1 were always higher than the estimated ones using model 2. For carcass weight, relatively high values of the proportion of the additive genetic variance were estimated when using SNPs with MAFs which were in the ranges of 0.20 to 0.25 and 0.25 to 0.30, which may be partly due to the three previously-reported quantitative trait loci candidate regions. The results could have provided some information on the genetic architecture for the carcass traits in Japanese Black cattle, although its validity may be limited, mainly due to the sample size and the use of simpler statistical models in this study.展开更多
Background Previous reports indicated that mutations in the adenosine triphosphate (ATP)-binding cassette transporter A3 (ABCA3) cause fatal respiratory failure in term infants, and common ABCA3 gene polymorphism...Background Previous reports indicated that mutations in the adenosine triphosphate (ATP)-binding cassette transporter A3 (ABCA3) cause fatal respiratory failure in term infants, and common ABCA3 gene polymorphisms have been characterized at the population level in Caucasians. But the role of ABCA3 in relation to respiratory distress syndrome (RDS) in newborns has not been evaluated within a Chinese population. The aim of this study was to analyze eight single-nucleotide polymorphisms (SNPs) of the ABCA3 gene, and to assess the ABCA3 gene as a candidate gene for susceptibility to RDS in newborns.Methods Eight SNPs were selected and genotyped in 203 newborns. The data analysis and statistical tests were used for allele frequencies, haplotype and Hardy-Weinberg equilibrium pairwise linkage disequilibrium measures. Results There was a haplotype association with SNP rs313909 and SNP rs170447, but no haplotype association was observed among the newborns with and without RDS (P 〉0.05). The minor allele frequency (G) of the coding SNP (cSNP) rs323043 (P585P) was significantly increased in preterm infants with RDS.Conclusion There is an association between a synonymous cSNP rs323043 and the development of RDS.展开更多
基金supported by the National Natural Science Foundation of China(31201782,31672384 and 31372294)the Agricultural Science and Technology Innovation Program of Chinese Academy of Agricultural Sciences(ASTIPIAS03)+3 种基金the Cattle Breeding Innovative Research Team of Chinese Academy of Agricultural Sciences(cxgc-ias-03)the Key Technology R&D Program of China during the 12th Five-Year Plan period(2011BAD28B04)the National High Technology Research and Development Program of China(863 Program 2013AA102505-4)the Beijing Natural Science Foundation,China(6154032)
文摘Genomic selection has been demonstrated as a powerful technology to revolutionize animal breeding. However, marker density and minor allele frequency can affect the predictive ability of genomic estimated breeding values (GEBVs). To investigate the impact of marker density and minor allele frequency on predictive ability, we estimated GEBVs by constructing the different subsets of single nucleotide polymorphisms (SNPs) based on varying markers densities and minor allele frequency (MAF) for average daily gain (ADG), live weight (LW) and carcass weight (CW) in 1 059 Chinese Simmental beef cattle. Two strategies were proposed for SNP selection to construct different marker densities: 1) select evenly-spaced SNPs (Strategy 1 ), and 2) select SNPs with large effects estimated from BayesB (Strategy 2). Furthermore, predictive ability was assessed in terms of the correlation between predicted genomic values and corrected phenotypes from 10-fold cross-validation. Predictive ability for ADG, LW and CW using autosomal SNPs were 0.13+0.002, 0.21+0.003 and 0.25+0.003, respectively. In our study, the predictive ability increased dramatically as more SNPs were included in analysis until 200K for Strategy 1. Under Strategy 2, we found the predictive ability slightly increased when marker densities increased from 5K to 20K, which indicated the predictive ability of 20K (3% of 770K) SNPs with large effects was equal to the predictive ability of using all SNPs. For different MAF bins, we obtained the highest predictive ability for three traits with MAF bin 0.01-0.1. Our result suggested that designing a low-density chip by selecting low frequency markers with large SNP effects sizes should be helpful for commercial application in Chinese Simmental cattle.
文摘Japanese Black cattle are a beef breed and well known to excel in carcass quality, but the details of genetic architectures for carcass traits in beef breeds including this breed are still poorly understood. The objective of this study was to estimate the degree of additive genetic variance explained by single nucleotide polymorphism (SNP) marker groups with different levels of minor allele frequency (MAF) for marbling score and carcass weight in Japanese Black cattle. Phenotypic data on 872 fattened steers with the genotype information about 40,000 autosomal SNPs were analyzed using two different statistical models: one considering only SNPs selected based on MAF (model 1) and the other also considering all remaining SNPs as the different term (model 2). All available SNPs were classified into 10 groups based on their MAFs. For both traits, the estimated proportions of additive genetic variance explained by SNPs selected based on their MAFs using model 1 were always higher than the estimated ones using model 2. For carcass weight, relatively high values of the proportion of the additive genetic variance were estimated when using SNPs with MAFs which were in the ranges of 0.20 to 0.25 and 0.25 to 0.30, which may be partly due to the three previously-reported quantitative trait loci candidate regions. The results could have provided some information on the genetic architecture for the carcass traits in Japanese Black cattle, although its validity may be limited, mainly due to the sample size and the use of simpler statistical models in this study.
基金Correspondence to: DU Li-zhong, Depar This work was supported by a grant from the National Natural Science Foundation of China (No. 81070512).Acknowledgements: We thank the Neonatal Intensive Care Unit staff for their collaboration for this work. The study was also supported by Zhejiang Key Laboratory for Diagnosis and Therapy of Neonatal Diseases.
文摘Background Previous reports indicated that mutations in the adenosine triphosphate (ATP)-binding cassette transporter A3 (ABCA3) cause fatal respiratory failure in term infants, and common ABCA3 gene polymorphisms have been characterized at the population level in Caucasians. But the role of ABCA3 in relation to respiratory distress syndrome (RDS) in newborns has not been evaluated within a Chinese population. The aim of this study was to analyze eight single-nucleotide polymorphisms (SNPs) of the ABCA3 gene, and to assess the ABCA3 gene as a candidate gene for susceptibility to RDS in newborns.Methods Eight SNPs were selected and genotyped in 203 newborns. The data analysis and statistical tests were used for allele frequencies, haplotype and Hardy-Weinberg equilibrium pairwise linkage disequilibrium measures. Results There was a haplotype association with SNP rs313909 and SNP rs170447, but no haplotype association was observed among the newborns with and without RDS (P 〉0.05). The minor allele frequency (G) of the coding SNP (cSNP) rs323043 (P585P) was significantly increased in preterm infants with RDS.Conclusion There is an association between a synonymous cSNP rs323043 and the development of RDS.
