2009
DOI: 10.3168/jds.2009-2022
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Whole intact rapeseeds or sunflower oil in high-forage or high-concentrate diets affects milk yield, milk composition, and mammary gene expression profile in goats

Abstract: This study aimed to ascertain the response of goat mammary metabolic pathways to concentrate and lipid feeding in relation to milk fatty acid (FA) composition and secretion. Sixteen midlactation multiparous goats received diets differing in forage-to-concentrate ratio [high forage (HF) 64:36, and low forage (LF) 43:57] supplemented or not with lipids [HF with 130 g/d of oil from whole intact rapeseeds (RS) and LF with 130 g/d of sunflower oil (SO)] in a 4 x 4 Latin square design. Milk yield, milk composition, … Show more

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Cited by 77 publications
(87 citation statements)
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References 37 publications
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“…LPL, CD36 and FABP3). These findings are consistent with previous research in dairy goats fed plant oils (Bernard et al, 2009a and2009b;Ollier et al, 2009), suggesting that, in the absence of MFD, diet-induced changes in the content of milk long-chain FA might not be mediated by changes in the mRNA abundance of these particular candidate genes. They would also suggest that other regulatory mechanisms such as post-transcriptional events linked to higher availability of 18-carbon FA may be involved (Bernard et al, 2008).…”
Section: Mammary Lipid Metabolismsupporting
confidence: 82%
“…LPL, CD36 and FABP3). These findings are consistent with previous research in dairy goats fed plant oils (Bernard et al, 2009a and2009b;Ollier et al, 2009), suggesting that, in the absence of MFD, diet-induced changes in the content of milk long-chain FA might not be mediated by changes in the mRNA abundance of these particular candidate genes. They would also suggest that other regulatory mechanisms such as post-transcriptional events linked to higher availability of 18-carbon FA may be involved (Bernard et al, 2008).…”
Section: Mammary Lipid Metabolismsupporting
confidence: 82%
“…A possible explanation for these results might be that the variability in the FA profile among the dietary treatments was not sufficient because the unprotected UFA sources had undergone extensive biohydrogenation by rumen microorganisms (Chilliard et al, 2007); and therefore, the contrast in absorbed FA composition between supplements was probably too small to cause large differences in mammary gland tissue gene expression. In agreement, Ollier et al (2009) supplementing mid-lactation multiparous goats with oil from whole intact rapeseed or sunflower did not find significant changes in the expression of 8382 genes in the mammary gland, despite changes in milk composition. However, the lack of differently expressed genes between UFA sources could also be the result of a high variability in the expression levels of genes in the mammary gland within groups of treatments, as biological variation is intrinsic to all organisms (Churchill, 2002).…”
Section: Discussionsupporting
confidence: 61%
“…Lastly, the mixedeffects ANOVA allows to treat the cow as a random effect, which captures variability between individual cows within the same condition (Churchill, 2004). Ollier et al (2009) also analyzed genome-wide expression in the mammary gland of goats fed with diets differing in forage-to-concentrate ratio supplemented or not with lipids by ANOVA, including diet, period and animal group effects. However, in our study, the expression of genes in mammary gland was not significantly affected by the different dietary unprotected UFA sources.…”
Section: Statistical Analysesmentioning
confidence: 99%
“…Supplementing high-forage diets with rapeseeds or highconcentrate diets with sunflower oil were shown to increase milk fat synthesis in the goat (Ollier et al, 2009). Inclusion of sunflower oil altered the concentrations of most fatty acids in milk characterized by relatively large increases in trans 18:1 and 18:2 isomers, whereas rapeseeds resulted in marked reductions in the concentrations of fatty acids synthesized de novo and enhanced 18:0 and OA content, in the absence of substantial changes in trans 18:1 and CLA isomers.…”
Section: Nutritional Regulation Of the Ruminant Mammary Transcriptomementioning
confidence: 99%