His primary scientific interests are in Genetics, Gene, Quantitative trait locus, Beef cattle and Genome. Genetics is represented through his Genetic linkage, Genetic marker, Single-nucleotide polymorphism, SNP and Allele research. His Allele research is multidisciplinary, incorporating perspectives in Genetic variation and Meat tenderness.
William Barendse works mostly in the field of Gene, limiting it down to topics relating to Molecular biology and, in certain cases, Intron, as a part of the same area of interest. His Beef cattle research is multidisciplinary, relying on both Breed and Estrous cycle. The study incorporates disciplines such as Domestication, Livestock, Effective population size and Sequence assembly in addition to Breed.
His primary areas of investigation include Genetics, Genetic marker, Gene, Gene mapping and Allele. His study ties his expertise on Molecular biology together with the subject of Genetics. William Barendse works mostly in the field of Genetic marker, limiting it down to concerns involving Tenderness and, occasionally, Brahman, Livestock, Herd and Weaning.
His Gene mapping study combines topics in areas such as Chromosome 22 and Locus. His research integrates issues of Shorthorn, Intramuscular fat, Genetic variation and Meat tenderness in his study of Allele. He interconnects Quantitative trait locus, Tick, Haplotype and Beef cattle in the investigation of issues within Single-nucleotide polymorphism.
His scientific interests lie mostly in Genetics, Beef cattle, Single-nucleotide polymorphism, Quantitative trait locus and Genome-wide association study. His studies in SNP, Allele, Haplotype, Genetic marker and Brahman are all subfields of Genetics research. His work in the fields of Allele, such as Allele frequency, intersects with other areas such as Prolactin receptor.
His Single-nucleotide polymorphism research includes themes of genomic DNA, Neutral theory of molecular evolution, Subspecies, Major histocompatibility complex and Bovine genome. His Quantitative trait locus course of study focuses on Genome and Genetic analysis, Gene mapping and Pelagic zone. His Genome-wide association study study combines topics from a wide range of disciplines, such as Evolutionary biology and Linkage disequilibrium.
William Barendse focuses on Beef cattle, Genome-wide association study, Genetics, Single-nucleotide polymorphism and Allele. William Barendse combines subjects such as Marbled meat, Genetic marker, Gene, Intramuscular fat and Gene regulatory network with his study of Beef cattle. His studies deal with areas such as Quantitative trait locus, Allele frequency and Haplotype as well as Single-nucleotide polymorphism.
His Quantitative trait locus research integrates issues from Breed, Dairy cattle, Crossbreed and Heritability. William Barendse has researched Allele in several fields, including Climatic adaptation, Tropics, Livestock, Genetic variation and Genetic architecture. The various areas that William Barendse examines in his SNP study include Evolutionary biology, Linkage disequilibrium and Family-based QTL mapping.
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Genome-wide survey of SNP variation uncovers the genetic structure of cattle breeds.
Richard A. Gibbs;Jeremy F. Taylor;Curtis P. Van Tassell.
A genetic linkage map of the bovine genome
W. Barendse;S.M. Armitage;L.M. Kossarek;A. Shalom.
Nature Genetics (1994)
Genome-wide analysis of the world's sheep breeds reveals high levels of historic mixture and strong recent selection.
James W. Kijas;Johannes A. Lenstra;Ben Hayes;Simon Boitard.
PLOS Biology (2012)
A medium density genetic linkage map of the bovine genome
W. Barendse;D. Vaiman;S. J. Kemp;Y. Sugimoto.
Mammalian Genome (1997)
Chromosomal localization of the callipyge gene in sheep (Ovis aries) using bovine DNA markers.
Noelle E. Cockett;Sam P. Jackson;Tracy L. Shay;Dahlia Nielsen.
Proceedings of the National Academy of Sciences of the United States of America (1994)
A validated whole-genome association study of efficient food conversion in cattle.
William Barendse;Antonio Reverter;Rowan J Bunch;Blair E Harrison.
Characterization of 65 bovine microsatellites.
S. S. Moore;K. Byrne;K. T. Berger;W. Barendse.
Mammalian Genome (1994)
Physically mapped, cosmid-derived microsatellite markers as anchor loci on bovine chromosomes
S. S. Toldo;R. Fries;P. Steffen;H. L. Neiberg.
Mammalian Genome (1993)
A panel of polymorphic bovine, ovine and caprine microsatellite markers
S J Kemp;O Hishida;J Wambugu;A Rink.
Animal Genetics (2009)
A Multi-Trait, Meta-analysis for Detecting Pleiotropic Polymorphisms for Stature, Fatness and Reproduction in Beef Cattle
Sunduimijid Bolormaa;Jennie E. Pryce;Antonio Reverter;Yuandan Zhang.
PLOS Genetics (2014)
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