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1.
N Z Vet J ; 58(1): 1-5, 2010 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-20200568

RESUMO

AIM: To identify quantitative trait loci (QTL) affecting the concentration of beta-lactoglobulin in milk, and to evaluate the effect of beta-lactoglobulin genetic variants on the concentration of fat, protein and casein in bovine milk. METHODS: A herd of 850 F2 Holstein-Friesian x Jersey crossbred cows was produced through mating six Holstein-Friesian x Jersey F1 bulls of high genetic merit with F1 cows from the national herd. A total of 1,610 herd-test records from 556 second-parity crossbreds were analysed. The concentration of fat, protein and casein in milk was measured at peak, mid- and late lactation, during the production seasons of 2003-2004 and 2004-2005. Liveweight was measured daily. DNA from the F2 animals, their F1 dams and sires, and selected grandsires was genotyped across the genome, initially with 285 microsatellite markers, and subsequently with 6,634 single nucleotide polymorphisms (SNP). RESULTS: A highly significant QTL for the concentration of beta-lactoglobulin in milk was identified, which coincided with the position of the beta-lactoglobulin gene on bovine Chromosome 11. No other consistently significant QTL for the concentration of beta-lactoglobulin in milk were detected. Cows with the BB beta-lactoglobulin genotype produced milk with a 30% lower concentration of beta-lactoglobulin than cows with the AA genotype. The beta-lactoglobulin polymorphism also explained variation in the proportion of casein in total protein. In addition, the percentage of fat was higher for BB than AA animals, whereas the percentage of total protein, mean daily milk yield and liveweight did not differ between AA and BB animals. CONCLUSIONS: A significant QTL determining the concentration of beta-lactoglobulin in milk was identified. Selection of animals for the beta-lactoglobulin B-allele may enable the production of milk naturally enriched for casein, thus allowing a potential increase in the yield of cheese. There may be additional future value in production of bovine milk more like human milk, where decreasing the concentration of beta-lactoglobulin is desirable.


Assuntos
Bovinos/genética , Bovinos/fisiologia , Variação Genética , Lactoglobulinas/metabolismo , Leite/química , Locos de Características Quantitativas/fisiologia , Animais , Mapeamento Cromossômico , Feminino , Regulação da Expressão Gênica , Genótipo , Lactoglobulinas/genética
2.
Genetics ; 182(3): 923-6, 2009 Jul.
Artigo em Inglês | MEDLINE | ID: mdl-19398771

RESUMO

beta-Carotene biochemistry is a fundamental process in mammalian biology. Aberrations either through malnutrition or potentially through genetic variation may lead to vitamin A deficiency, which is a substantial public health burden. In addition, understanding the genetic regulation of this process may enable bovine improvement. While many bovine QTL have been reported, few of the causative genes and mutations have been identified. We discovered a QTL for milk beta-carotene and subsequently identified a premature stop codon in bovine beta-carotene oxygenase 2 (BCO2), which also affects serum beta-carotene content. The BCO2 enzyme is thereby identified as a key regulator of beta-carotene metabolism.


Assuntos
Leite/metabolismo , Mutação , Oxigenases/genética , Sequência de Aminoácidos , Animais , Sequência de Bases , Bovinos , Cromossomos de Mamíferos/genética , Cor , Cruzamentos Genéticos , Análise Mutacional de DNA , Feminino , Genótipo , Masculino , Leite/química , Oxigenases/metabolismo , Polimorfismo de Nucleotídeo Único , Locos de Características Quantitativas/genética , beta Caroteno/sangue , beta Caroteno/metabolismo
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