Articles citing this paper
CRC breeding program design, measurements and database: methods that underpin CRC research results
W. Upton, H. M. Burrow, A. Dundon, D. L. Robinson and E. B. Farrell
41(7) pp.943 - 952
53 articles found in Crossref database.
Live animal predictions of carcass components and marble score in beef cattle: model development and evaluation
McPhee M.J.,
Walmsley B.J.,
Dougherty H.C.,
McKiernan W.A., Oddy V.H.
Animal. 2020 14 p.s396
Performance of steer progeny of sires differing in genetic potential for fatness and meat yield following post-weaning growth at different rates. 1. Growth and live-animal composition
Wilkins J. F.,
McKiernan W. A.,
Irwin J.,
Orchard B., Barwick S. A.
Animal Production Science. 2009 49(6). p.515
Genetic evaluation for the beef industry in Australia
Graser H-U.,
Tier B.,
Johnston D. J., Barwick S. A.
Australian Journal of Experimental Agriculture. 2005 45(8). p.913
The effect of measurement error of phenotypes on genome wide association studies
Barendse William
BMC Genomics. 2011 12(1).
An interactive bovine in silico SNP database (IBISS)
Hawken Rachel J.,
Barris Wesley C.,
McWilliam Sean M., Dalrymple Brian P.
Mammalian Genome. 2004 15(10). p.819
Variation in the XKR4 gene was significantly associated with subcutaneous rump fat thickness in indicine and composite cattle
Porto Neto L. R.,
Bunch R. J.,
Harrison B. E., Barendse W.
Animal Genetics. 2012 43(6). p.785
The evolution of tropical adaptation: comparing taurine and zebu cattle
Chan E. K. F.,
Nagaraj S. H., Reverter A.
Animal Genetics. 2010 41(5). p.467
Whole-genome association study of fatty acid composition in a diverse range of beef cattle breeds
Kelly M. J.,
Tume R. K.,
Fortes M., Thompson J. M.
Journal of Animal Science. 2014 92(5). p.1895
Effects of backgrounding and finishing growth rates on P8 fat and intramuscular fat in Bos taurus steers
McPhee M. J.,
Harden S.,
Robinson D. L.,
Dicker R. W., Oddy V. H.
Animal Production Science. 2012 52(5). p.354
Epistasis Between Calpain 1 and Its Inhibitor Calpastatin Within Breeds of Cattle
Barendse W,
Harrison B E,
Hawken R J,
Ferguson D M,
Thompson J M,
Thomas M B, Bunch R J
Genetics. 2007 176(4). p.2601
Designing complex research projects to estimate genetic parameters plus treatment and other effects - optimising the experimental design
Robinson D. L.
Australian Journal of Experimental Agriculture. 2008 48(8). p.1110
Relationships between beef heifer feed efficiency traits and Igenity panel scores in western Canada1
Damiran Daalkhaijav,
Penner Gregory B,
Larson Kathy A,
Añez-Osuna Federico, Lardner H A (Bart)
Translational Animal Science. 2018 2(suppl_1). p.S66
Prediction of ossification from live and carcass traits in young beef cattle: model development and evaluation1
Gudex Boyd W,
McPhee Malcolm J,
Oddy Victor H, Walmsley Brad J
Journal of Animal Science. 2019 97(1). p.144
Breeding strategies for the development of the Australian beef industry: an overview
Hammond K.
Australian Journal of Experimental Agriculture. 2006 46(2). p.183
Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 2. Meat quality and palatability
Schutt K. M.,
Burrow H. M.,
Thompson J. M., Bindon B. M.
Animal Production Science. 2009 49(6). p.439
Dissection of beef quality phenotypes using a myogenin network-anchored systems biology approach
Reverter A.,
Chan E. K. F.,
Lehnert S. A.,
Barris W.,
McWilliam S. M.,
Dalrymple B. P., Barendse W.
Australian Journal of Experimental Agriculture. 2008 48(8). p.1053
Effect of repeated implants of oestradiol-17β on beef palatability in Brahman and Braham cross steers finished to different market end points
Thompson J. M.,
Polkinghorne R.,
Porter M.,
Burrow H. M.,
Hunter R. A.,
McCrabb G. J., Watson R.
Australian Journal of Experimental Agriculture. 2008 48(11). p.1434
The leptin C73T missense mutation is not associated with marbling and fatness traits in a large gene mapping experiment in Australian cattle
Barendse W.,
Bunch R. J., Harrison B. E.
Animal Genetics. 2005 36(1). p.86
Feed intake, growth, and body and carcass attributes of feedlot steers supplemented with two levels of calcium nitrate or urea1
Hegarty R. S.,
Miller J.,
Oelbrandt N.,
Li L.,
Luijben J. P. M.,
Robinson D. L.,
Nolan J. V., Perdok H. B.
Journal of Animal Science. 2016 94(12). p.5372
Assessing the accuracy of modelling weight gain of cattle using feed efficiency data
Robinson D.L.
Livestock Production Science. 2005 95(3). p.187
Genetic variation in fatty acid composition of subcutaneous fat in cattle
Kelly M. J.,
Tume R. K.,
Newman S., Thompson J. M.
Animal Production Science. 2013 53(2). p.129
Additive and epistatic genome‐wide association for growth and ultrasound scan measures of carcass‐related traits in Brahman cattle
Ali A.A.,
Khatkar M.S.,
Kadarmideen H.N., Thomson P.C.
Journal of Animal Breeding and Genetics. 2015 132(2). p.187
Phenotypic and genetic relationships for feed intake, feed efficiency, body composition and cow milk yield measured postweaning and in mature beef cows
Archer J. A.,
Reverter A.,
Herd R. M.,
Arthur P. F., Mortimer Suzanne
Animal Production Science. 2023 63(15). p.1473
The effect of growth rate during backgrounding and finishing on meat quality traits in beef cattle
Perry D., Thompson J.M.
Meat Science. 2005 69(4). p.691
Genetics of steer daily and residual feed intake in two tropical beef genotypes, and relationships among intake, body composition, growth and other post-weaning measures
Barwick S. A.,
Wolcott M. L.,
Johnston D. J.,
Burrow H. M., Sullivan M. T.
Animal Production Science. 2009 49(6). p.351
Modeling the relationship between scanned rump and 12th-rib fat in young temperate and tropical bovines: Model development and evaluation1,2
Walmsley B. J.,
Wolcott M. L., McPhee M. J.
Journal of Animal Science. 2010 88(5). p.1848
Accuracy of prediction of genomic breeding values for residual feed intake and carcass and meat quality traits in Bos taurus, Bos indicus, and composite beef cattle1
Bolormaa S.,
Pryce J. E.,
Kemper K.,
Savin K.,
Hayes B. J.,
Barendse W.,
Zhang Y.,
Reich C. M.,
Mason B. A.,
Bunch R. J.,
Harrison B. E.,
Reverter A.,
Herd R. M.,
Tier B.,
Graser H.-U., Goddard M. E.
Journal of Animal Science. 2013 91(7). p.3088
A marker-derived gene network reveals the regulatory role of PPARGC1A, HNF4G, and FOXP3 in intramuscular fat deposition of beef cattle1
Ramayo-Caldas Y.,
Fortes M. R. S.,
Hudson N. J.,
Porto-Neto L. R.,
Bolormaa S.,
Barendse W.,
Kelly M.,
Moore S. S.,
Goddard M. E.,
Lehnert S. A., Reverter A.
Journal of Animal Science. 2014 92(7). p.2832
Variation at the Calpain 3 gene is associated with meat tenderness in zebu and composite breeds of cattle
Barendse William,
Harrison Blair E,
Bunch Rowan J, Thomas Merle B
BMC Genetics. 2008 9(1).
Comparative stress responses to short transport and related events in Hereford and Brahman steers1
Browning R., Leite-Browning M. L.
Journal of Animal Science. 2013 91(2). p.957
Variation at CPE but not CEBPA appears to be associated with intramuscular fat deposition in the longissimus muscle of cattle
Barendse William,
Bunch Rowan J., Harrison Blair E.
Animal Production Science. 2009 49(7). p.558
Experimental design for integrated research projects to estimate genetic and numerous treatment effects
Robinson D.L.
Livestock Science. 2009 121(2-3). p.300
A splice site single nucleotide polymorphism of the fatty acid binding protein 4 gene appears to be associated with intramuscular fat deposition in longissimus muscle in Australian cattle
Barendse W.,
Bunch R. J.,
Thomas M. B., Harrison B. E.
Animal Genetics. 2009 40(5). p.770
A Validated Whole-Genome Association Study of Efficient Food Conversion in Cattle
Barendse W,
Reverter A,
Bunch R J,
Harrison B E,
Barris W, Thomas M B
Genetics. 2007 176(3). p.1893
Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 1. Carcass quality
Schutt K. M.,
Burrow H. M.,
Thompson J. M., Bindon B. M.
Animal Production Science. 2009 49(6). p.426
Genesis, design and methods of the Beef CRC Maternal Productivity Project
Pitchford W. S.,
Accioly J. M.,
Banks R. G.,
Barnes A. L.,
Barwick S. A.,
Copping K. J.,
Deland M. P. B.,
Donoghue K. A.,
Edwards N.,
Hebart M. L.,
Herd R. M.,
Jones F. M.,
Laurence M.,
Lee S. J.,
McKiernan W. A.,
Parnell P. F.,
Speijers E. J.,
Tudor G. D., Graham J. F.
Animal Production Science. 2018 58(1). p.20
Genetics of flight time and other measures of temperament and their value as selection criteria for improving meat quality traits in tropically adapted breeds of beef cattle
Kadel Meridy J.,
Johnston David J.,
Burrow Heather M.,
Graser Hans-U., Ferguson Drewe M.
Australian Journal of Agricultural Research. 2006 57(9). p.1029
Performance of steer progeny of sires differing in genetic potential for fatness and meat yield following postweaning growth at different rates. 2. Carcass traits
McKiernan W. A.,
Wilkins J. F.,
Irwin J.,
Orchard B., Barwick S. A.
Animal Production Science. 2009 49(6). p.525
The effect of variation at the retinoic acid receptor-related orphan receptor C gene on intramuscular fat percent and marbling score in Australian cattle1,2
Barendse W.,
Bunch R. J., Harrison B. E.
Journal of Animal Science. 2010 88(1). p.47
Estimated gene frequencies of GeneSTAR markers and their size of effects on meat tenderness, marbling, and feed efficiency in temperate and tropical beef cattle breeds across a range of production systems1
Johnston D. J., Graser H.-U.
Journal of Animal Science. 2010 88(6). p.1917
Male traits and herd reproductive capability in tropical beef cattle. 1. Experimental design and animal measures
Burns B. M.,
Corbet N. J.,
Corbet D. H.,
Crisp J. M.,
Venus B. K.,
Johnston D. J.,
Li Y.,
McGowan M. R., Holroyd R. G.
Animal Production Science. 2013 53(2). p.87
CRC 'Regional Combinations' project — effects of genetics and growth paths on beef production and meat quality: experimental design, methods and measurements.
McKiernan W. A.,
Wilkins J. F.,
Barwick S. A.,
Tudor G. D.,
McIntyre B. L.,
Graham J. F.,
Deland M. P. B., Davies L.
Australian Journal of Experimental Agriculture. 2005 45(8). p.959
Genetics research in the Cooperative Research Centre for Cattle and Beef Quality
Burrow H. M., Bindon B. M.
Australian Journal of Experimental Agriculture. 2005 45(8). p.941
Selection for increased muscling is not detrimental to maternal productivity traits in Angus cows
Cafe L. M.,
McKiernan W. A., Robinson D. L.
Animal Production Science. 2018 58(1). p.185
Effect of postweaning growth and bulls selected for extremes in retail beef yield and intramuscular fat on progeny liveweight and carcass traits
Graham J. F.,
Byron J.,
Clark A. J.,
Kearney G., Orchard B.
Animal Production Science. 2009 49(6). p.493
Challenges and Opportunities in Applying Genomic Selection to Ruminants Owned by Smallholder Farmers
Burrow Heather M.,
Mrode Raphael,
Mwai Ally Okeyo,
Coffey Mike P., Hayes Ben J.
Agriculture. 2021 11(11). p.1172
Genetic and environmental effects on meat quality
Warner R.D.,
Greenwood P.L.,
Pethick D.W., Ferguson D.M.
Meat Science. 2010 86(1). p.171
Male traits and herd reproductive capability in tropical beef cattle. 2. Genetic parameters of bull traits
Corbet N. J.,
Burns B. M.,
Johnston D. J.,
Wolcott M. L.,
Corbet D. H.,
Venus B. K.,
Li Y.,
McGowan M. R., Holroyd R. G.
Animal Production Science. 2013 53(2). p.101
A genome-wide association study of meat and carcass traits in Australian cattle1
Bolormaa S.,
Neto L. R. Porto,
Zhang Y. D.,
Bunch R. J.,
Harrison B. E.,
Goddard M. E., Barendse W.
Journal of Animal Science. 2011 89(8). p.2297
Purebred-crossbred performance and genetic evaluation of postweaning growth and carcass traits in Bos indicus × Bos taurus crosses in Australia1
Newman S.,
Reverter A., Johnston D. J.
Journal of Animal Science. 2002 80(7). p.1801
Brahman and Brahman crossbred cattle grown on pasture and in feedlots in subtropical and temperate Australia. 3. Feed efficiency and feeding behaviour of feedlot-finished animals
Schutt K. M.,
Arthur P. F., Burrow H. M.
Animal Production Science. 2009 49(6). p.452
Haplotype Analysis Improved Evidence for Candidate Genes for Intramuscular Fat Percentage from a Genome Wide Association Study of Cattle
Barendse William, Schneider Marlon R.
PLoS ONE. 2011 6(12). p.e29601
Evidence for pleiotropism and recent selection in the PLAG1 region in Australian Beef cattle
Fortes M. R. S.,
Kemper K.,
Sasazaki S.,
Reverter A.,
Pryce J. E.,
Barendse W.,
Bunch R.,
McCulloch R.,
Harrison B.,
Bolormaa S.,
Zhang Y. D.,
Hawken R. J.,
Goddard M. E., Lehnert S. A.
Animal Genetics. 2013 44(6). p.636
