Biblio
“Gene networks driving bovine mammary protein synthesis during the lactation cycle.”, Bioinform Biol Insights, vol. 5, pp. 83-98, 2011.
, “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.
, “Plasma paraoxonase, health, inflammatory conditions, and liver function in transition dairy cows.”, J Dairy Sci, vol. 90, no. 4, pp. 1740-50, 2007.
, “Old and new stories: revelations from functional analysis of the bovine mammary transcriptome during the lactation cycle.”, PLoS One, vol. 7, no. 3, p. e33268, 2012.
, “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.
, “TRIENNIAL LACTATION SYMPOSIUM: Nutrigenomics in dairy cows: Nutrients, transcription factors, and techniques.”, J Anim Sci, vol. 93, no. 12, pp. 5531-53, 2015.
, “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.”, Br J Nutr, vol. 107, no. 2, pp. 179-91, 2012.
, “Gene Networks Driving Bovine Mammary Protein Synthesis during the Lactation cycle”, Bioinformatics and Biology Insights, vol. 5, p. BBI.S7003, 2011.
, “A novel dynamic impact approach (DIA) for functional analysis of time-course omics studies: validation using the bovine mammary transcriptome.”, PLoS One, vol. 7, no. 3, p. e32455, 2012.
, “Gene networks driving bovine milk fat synthesis during the lactation cycle.”, BMC Genomics, vol. 9, p. 366, 2008.
, “Functional Role of PPARs in Ruminants: Potential Targets for Fine-Tuning Metabolism during Growth and Lactation.”, PPAR Res, vol. 2013, p. 684159, 2013.
, “ACSL1, AGPAT6, FABP3, LPIN1, and SLC27A6 are the most abundant isoforms in bovine mammary tissue and their expression is affected by stage of lactation.”, J Nutr, vol. 138, no. 6, pp. 1019-24, 2008.
, “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 Res, vol. 2013, p. 807156, 2013.
, “291 THE USE OF THE DYNAMIC IMPACT APPROACH AND DESORPTION ELECTROSPRAY IONIZATION - MASS SPECTROSCOPY TO ANALYZE ADIPOGENESIS IN PORCINE ADIPOSE-DERIVED STEM CELLS”, Reproduction, Fertility and Development, vol. 25, no. 1, p. 293, 2013.
, “Transcription Adaptation during In Vitro Adipogenesis and Osteogenesis of Porcine Mesenchymal Stem Cells: Dynamics of Pathways, Biological Processes, Up-Stream Regulators, and Gene Networks.”, PLoS One, vol. 10, no. 9, p. e0137644, 2015.
, “Transcription Adaptation during In Vitro Adipogenesis and Osteogenesis of Porcine Mesenchymal Stem Cells: Dynamics of Pathways, Biological Processes, Up-Stream Regulators, and Gene Networks”, PLOS ONE, p. e0137644, 2015.
, “Ruminant metabolic systems biology: reconstruction and integration of transcriptome dynamics underlying functional responses of tissues to nutrition and physiological state.”, Gene Regul Syst Bio, vol. 6, pp. 109-25, 2012.
, “ Innate olfactory responses Asobara japonica toward fruits infested by the invasive Spotted Wing Drosophila”, Journal of Insect Behavior, vol. 30, pp. 495-506, 2017.
, “Innate Olfactory Responses of Asobara japonica Toward Fruits Infested by the Invasive Spotted Wing Drosophila”, Journal of Insect Behavior, vol. 30, no. 5180421, pp. 495 - 506, 2017.
, “13C and 15N stabilization dynamics in soil organic matter fractions during needle and fine root decomposition”, Organic Geochemistry, vol. 39, no. 4, pp. 465 - 477, 2008.
, “Progesterone inhibition of oxytocin signaling in endometrium”, Frontiers in Neuroscience, vol. 7, 2013.
, “Evaluation of antral follicle growth in the macaque ovary during the menstrual cycle and controlled ovarian stimulation by high-resolution ultrasonography”, American Journal of Primatology, vol. 7127698025286881002132211351227250712107, no. 5, pp. 384 - 392, 2009.
, “Chronic hyperandrogenemia in the presence and absence of a western-style diet impairs ovarian and uterine structure/function in young adult rhesus monkeys”, Human Reproduction, vol. 332710437110567186037148358368815211239326492273063712837122257983799228836328913632323686313318, no. 1, pp. 128 - 139, 2017.
, “Western-style diet, with and without chronic androgen treatment, alters the number, structure, and function of small antral follicles in ovaries of young adult monkeys”, Fertility and Sterility, vol. 105, no. 4, pp. 1023 - 1034, 2016.
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