Biblio
“Fine metabolic regulation in ruminants via nutrient–gene interactions: saturated long-chain fatty acids increase expression of genes involved in lipid metabolism and immune response partly through PPAR-α activation”, British Journal of Nutrition, vol. 107180158177119161441771135, no. 02, pp. 179 - 191, 2012.
, “Functional Role of PPARs in Ruminants: Potential Targets for Fine-Tuning Metabolism during Growth and Lactation”, PPAR Research, vol. 20132339714020548138479266338428909095887199279385947129614157683277896210385421762899113416947828743436877, no. 11158263615235266873163231111641110104497, pp. 1 - 28, 2013.
, “Gene Networks Driving Bovine Mammary Protein Synthesis during the Lactation cycle”, Bioinformatics and Biology Insights, vol. 5, p. BBI.S7003, 2011.
, “Integrative Analyses of Hepatic Differentially Expressed Genes and Blood Biomarkers during the Peripartal Period between Dairy Cows Overfed or Restricted-Fed Energy Prepartum”, PLoS ONE, vol. , no. 6, p. e99757, 2014.
, “A Novel Dynamic Impact Approach (DIA) for Functional Analysis of Time-Course Omics Studies: Validation Using the Bovine Mammary Transcriptome”, PLoS ONE, vol. 7372681757413986403624401594491129854186802816371674480Reprod847621151459289827657022)73, no. 3, p. e32455, 2012.
, “Old and New Stories: Revelations from Functional Analysis of the Bovine Mammary Transcriptome during the Lactation Cycle”, PLoS ONE, vol. 7468986159848425815212299748165756869117279269291189745981691773918481221462093912835223577613410165615187910803812216323057, no. 3, p. e33268, 2012.
, “Physiological and Nutritional Roles of PPAR across Species”, PPAR Research, vol. 20131402086, no. 514, pp. 1 - 3, 2013.
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