E. M. Beattie scite author profile

E. M. Beattie

3Publications

131Citation Statements Received

57Citation Statements Given

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Mutation in Bovine β-Carotene Oxygenase 2 Affects Milk Color

Berry¹,

Davis²,

Beattie³

et al. 2009

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b-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 b-carotene and subsequently identified a premature stop codon in bovine b-carotene oxygenase 2 (BCO2), which also affects serum b-carotene content. The BCO2 enzyme is thereby identified as a key regulator of b-carotene metabolism.

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Phenotypic population screen identifies a new mutation in bovine DGAT1 responsible for unsaturated milk fat

Lehnert

Ward²,

Berry³

et al. 2015

Sci Rep

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Selective breeding has strongly reduced the genetic diversity in livestock species, and contemporary breeding practices exclude potentially beneficial rare genetic variation from the future gene pool. Here we test whether important traits arising by new mutations can be identified and rescued in highly selected populations. We screened milks from 2.5 million cows to identify an exceptional individual which produced milk with reduced saturated fat content, and improved unsaturated and omega-3 fatty acid concentrations. The milk traits were transmitted dominantly to her offspring, and genetic mapping and genome sequencing revealed a new mutation in a previously unknown splice enhancer of the DGAT1 gene. Homozygous carriers show features of human diarrheal disorders, and may be useful for the development of therapeutic strategies. Our study demonstrates that high-throughput phenotypic screening can uncover rich genetic diversity even in inbred populations, and introduces a novel strategy to develop novel milks with improved nutritional properties.

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Mapping a quantitative trait locus for the concentration of β-lactoglobulin in milk, and the effect of β-lactoglobulin genetic variants on the composition of milk from Holstein-Friesian x Jersey crossbred cows

Berry¹,

López‐Villalobos

Beattie³

et al. 2010

New Zealand Veterinary Journal

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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.

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E. M. Beattie

Mutation in Bovine β-Carotene Oxygenase 2 Affects Milk Color

Phenotypic population screen identifies a new mutation in bovine DGAT1 responsible for unsaturated milk fat

Mapping a quantitative trait locus for the concentration of β-lactoglobulin in milk, and the effect of β-lactoglobulin genetic variants on the composition of milk from Holstein-Friesian x Jersey crossbred cows

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