Our recent publication (Fontoura et al., 2022) has confirmed that dairy cows experiencing heat stress undergo a negative nutrient balance with an impaired lipolysis. The later obliges animals to mobilize muscle stores to meet energy and protein demand. Urea, the end product of muscle catabolism can damage cells, necessitating osmoprotective responses. This talk will present the effects of heat stress and dietary supplementation of organic acids and botanicals on hepatic methyl donor metabolism and phospholipid synthesis.
Sáinz de la Maza-Escolà, J. W. McFadden (2022). Effects of Heat Stress and Dietary Organic Acids and Botanicals on Hepatic One-carbon Metabolism.
Effects of Heat Stress and Dietary Organic Acids and Botanicals on Hepatic One-carbon Metabolism
Sáinz de la Maza-EscolàPrimo
;
2022
Abstract
Our recent publication (Fontoura et al., 2022) has confirmed that dairy cows experiencing heat stress undergo a negative nutrient balance with an impaired lipolysis. The later obliges animals to mobilize muscle stores to meet energy and protein demand. Urea, the end product of muscle catabolism can damage cells, necessitating osmoprotective responses. This talk will present the effects of heat stress and dietary supplementation of organic acids and botanicals on hepatic methyl donor metabolism and phospholipid synthesis.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.