Applied animal genomics: results from the field
AL Van Eenennaam, KA Weigel… - Annu. Rev. Anim …, 2014 - annualreviews.org
Genomic selection (GS) is the use of statistical methods to estimate the genetic merit of a
genotyped animal based on prediction equations derived from large ancestral populations …
genotyped animal based on prediction equations derived from large ancestral populations …
A new approach for efficient genotype imputation using information from relatives
M Sargolzaei, JP Chesnais, FS Schenkel - BMC genomics, 2014 - Springer
Background Genotype imputation can help reduce genotyping costs particularly for
implementation of genomic selection. In applications entailing large populations, recovering …
implementation of genomic selection. In applications entailing large populations, recovering …
[图书][B] Genetic data analysis for plant and animal breeding
We wrote this book to fill the gap between textbooks of quantitative genetic theory and
software manuals that provide details on analytical methods but little context or perspective …
software manuals that provide details on analytical methods but little context or perspective …
Evaluation of measures of correctness of genotype imputation in the context of genomic prediction: a review of livestock applications
In livestock, many studies have reported the results of imputation to 50k single nucleotide
polymorphism (SNP) genotypes for animals that are genotyped with low-density SNP …
polymorphism (SNP) genotypes for animals that are genotyped with low-density SNP …
Single Step, a general approach for genomic selection
Genomic evaluation methods assume that the reference population is genotyped and
phenotyped. This is most often false and the generation of pseudo-phenotypes is uncertain …
phenotyped. This is most often false and the generation of pseudo-phenotypes is uncertain …
Cattle sex-specific recombination and genetic control from a large pedigree analysis
L Ma, JR O'Connell, PM VanRaden, B Shen… - PLoS …, 2015 - journals.plos.org
Meiotic recombination is an essential biological process that generates genetic diversity and
ensures proper segregation of chromosomes during meiosis. From a large USDA dairy …
ensures proper segregation of chromosomes during meiosis. From a large USDA dairy …
Selecting sequence variants to improve genomic predictions for dairy cattle
PM VanRaden, ME Tooker, JR O'connell… - Genetics Selection …, 2017 - Springer
Background Millions of genetic variants have been identified by population-scale
sequencing projects, but subsets of these variants are needed for routine genomic …
sequencing projects, but subsets of these variants are needed for routine genomic …
Sequence-vs. chip-assisted genomic selection: accurate biological information is advised
Background The development of next-generation sequencing technologies (NGS) has made
the use of whole-genome sequence data for routine genetic evaluations possible, which has …
the use of whole-genome sequence data for routine genetic evaluations possible, which has …
Inexpensive computation of the inverse of the genomic relationship matrix in populations with small effective population size
I Misztal - Genetics, 2016 - academic.oup.com
Many computations with SNP data including genomic evaluation, parameter estimation, and
genome-wide association studies use an inverse of the genomic relationship matrix. The …
genome-wide association studies use an inverse of the genomic relationship matrix. The …
Genome-wide association and genotype by environment interactions for growth traits in US Red Angus cattle
Background Genotypic information produced from single nucleotide polymorphism (SNP)
arrays has routinely been used to identify genomic regions associated with complex traits in …
arrays has routinely been used to identify genomic regions associated with complex traits in …