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156 related items for PubMed ID: 34334194

  • 1. Expression of specific signaling components related to muscle protein turnover and of branched-chain amino acid catabolic enzymes in muscle and adipose tissue of preterm and term calves.
    Sadri H, Ghaffari MH, Steinhoff-Wagner J, Görs S, Hammon HM, Sauerwein H.
    J Dairy Sci; 2021 Oct; 104(10):11291-11305. PubMed ID: 34334194
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  • 2. Mammalian target of rapamycin signaling and ubiquitin proteasome-related gene expression in 3 different skeletal muscles of colostrum- versus formula-fed calves.
    Sadri H, Steinhoff-Wagner J, Hammon HM, Bruckmaier RM, Görs S, Sauerwein H.
    J Dairy Sci; 2017 Nov; 100(11):9428-9441. PubMed ID: 28918148
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  • 3. Short communication: Colostrum versus formula: Effects on mRNA expression of genes related to branched-chain amino acid metabolism in neonatal dairy calves.
    Ghaffari MH, Sadri H, Hammon HM, Steinhoff-Wagner J, Henschel N, Sauerwein H.
    J Dairy Sci; 2020 Oct; 103(10):9656-9666. PubMed ID: 32828514
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  • 4. Proteasome activity and expression of mammalian target of rapamycin signaling factors in skeletal muscle of dairy cows supplemented with conjugated linoleic acids during early lactation.
    Yang Y, Sadri H, Prehn C, Adamski J, Rehage J, Dänicke S, von Soosten D, Metges CC, Ghaffari MH, Sauerwein H.
    J Dairy Sci; 2020 Mar; 103(3):2829-2846. PubMed ID: 31954574
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  • 5. Branched-chain amino acids: Abundance of their transporters and metabolizing enzymes in adipose tissue, skeletal muscle, and liver of dairy cows at high or normal body condition.
    Webb LA, Sadri H, Schuh K, Egert S, Stehle P, Meyer I, Koch C, Dusel G, Sauerwein H.
    J Dairy Sci; 2020 Mar; 103(3):2847-2863. PubMed ID: 31928756
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  • 6. Changes in tissue abundance and activity of enzymes related to branched-chain amino acid catabolism in dairy cows during early lactation.
    Webb LA, Sadri H, von Soosten D, Dänicke S, Egert S, Stehle P, Sauerwein H.
    J Dairy Sci; 2019 Apr; 102(4):3556-3568. PubMed ID: 30712942
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  • 9. Hepatic glucocorticoid and α1- and β2-adrenergic receptors in calves change during neonatal maturation and are related to energy regulation.
    Schäff CT, Rohrbeck D, Steinhoff-Wagner J, Kanitz E, Sauerwein H, Bruckmaier RM, Hammon HM.
    J Dairy Sci; 2015 Feb; 98(2):1046-56. PubMed ID: 25497806
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  • 10. Short communication: Plasma concentration and tissue mRNA expression of haptoglobin in neonatal calves.
    Sadri H, Getachew B, Ghaffari MH, Hammon HM, Steinhoff-Wagner J, Sauerwein H.
    J Dairy Sci; 2020 Jul; 103(7):6684-6691. PubMed ID: 32331878
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  • 11. Glucose supplementation stimulates peripheral branched-chain amino acid catabolism in lactating dairy cows during essential amino acid infusions.
    Nichols K, Kim JJM, Carson M, Metcalf JA, Cant JP, Doelman J.
    J Dairy Sci; 2016 Feb; 99(2):1145-1160. PubMed ID: 26627857
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  • 12. Effects of colostrum versus formula feeding on hepatic glucocorticoid and α₁- and β₂-adrenergic receptors in neonatal calves and their effect on glucose and lipid metabolism.
    Schäff CT, Rohrbeck D, Steinhoff-Wagner J, Kanitz E, Sauerwein H, Bruckmaier RM, Hammon HM.
    J Dairy Sci; 2014 Oct; 97(10):6344-57. PubMed ID: 25108854
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  • 14. Ontogenic Changes of Villus Growth, Lactase Activity, and Intestinal Glucose Transporters in Preterm and Term Born Calves with or without Prolonged Colostrum Feeding.
    Steinhoff-Wagner J, Schönhusen U, Zitnan R, Hudakova M, Pfannkuche H, Hammon HM.
    PLoS One; 2015 Oct; 10(5):e0128154. PubMed ID: 26011395
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  • 15. Prematurity blunts the insulin- and amino acid-induced stimulation of translation initiation and protein synthesis in skeletal muscle of neonatal pigs.
    Rudar M, Naberhuis JK, Suryawan A, Nguyen HV, Stoll B, Style CC, Verla MA, Olutoye OO, Burrin DG, Fiorotto ML, Davis TA.
    Am J Physiol Endocrinol Metab; 2021 Mar 01; 320(3):E551-E565. PubMed ID: 33427053
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  • 16. Protein and energy intakes affected amino acid concentrations in plasma, muscle, and liver, and cell signaling in the liver of growing dairy calves.
    Rius AG, Weeks HA, Cyriac J, Akers RM, Bequette BJ, Hanigan MD.
    J Dairy Sci; 2012 Apr 01; 95(4):1983-91. PubMed ID: 22459844
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  • 17. Supplementation of branched-chain amino acids to a reduced-protein diet improves growth performance in piglets: involvement of increased feed intake and direct muscle growth-promoting effect.
    Zheng L, Wei H, Cheng C, Xiang Q, Pang J, Peng J.
    Br J Nutr; 2016 Jun 01; 115(12):2236-45. PubMed ID: 27079773
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  • 18. Diabetes and branched-chain amino acids: What is the link?
    Bloomgarden Z.
    J Diabetes; 2018 May 01; 10(5):350-352. PubMed ID: 29369529
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  • 19. Dietary supplementation of branched-chain amino acids increases muscle net amino acid fluxes through elevating their substrate availability and intramuscular catabolism in young pigs.
    Zheng L, Zuo F, Zhao S, He P, Wei H, Xiang Q, Pang J, Peng J.
    Br J Nutr; 2017 Apr 01; 117(7):911-922. PubMed ID: 28446262
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