FeedChannel feedchannel@feedchannel.online https://www.feedchannel.online en-us Visualplatform http://blogs.law.harvard.edu/tech/rss FeedChannel episodic no https://www.feedchannel.online/files/rv1.7/sitelogo.gif https://www.feedchannel.online http://www.feedchannel.online/methionines-impact-on-sustainable <p>During this Webinar Dr. Johan Osorio, South Dakota State University is presnting his insights on: Metionine's Impact on Sustainable Performance Methionine, beyond being the key building block in milk protein synthesis, plays other important metabolic roles to facilitate the transition from dry cow to lactating cow. Methionine’s impact on liver function at many levels is important to minimize health challenges around parturition, alleviate immunosuppression, promote dry matter intake, and thus enhance lactation performance. Evidence is accumulating on the positive role of methionine on gene transcription and fetal programming opening the doors for a more efficient, sustainable dairy production industry. <p>Dr. Johan Osorio, South Dakota State University<br> </p><p><br></p><p><b>Smart Science Series</b><br>Through the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability.<br></p></p><p><a href="http://www.feedchannel.online/methionines-impact-on-sustainable"><img src="http://www.feedchannel.online/64968580/66510392/c4fb35de919a024374a4b9daa8125e1c/standard/download-8-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66510392 Mon, 11 May 2020 00:00:00 GMT Methionine's Impact on Sustainable Performance During this Webinar Dr. Johan Osorio, South Dakota State University is presnting his insights on: Metionine's Impact on Sustainable Performance Methionine, beyond being the key building block in milk protein synthesis, plays other important metabolic roles to facilitate the transition from dry cow to lactating cow. Methionine’s impact on liver function at many levels is important to minimize health challenges around parturition, alleviate immunosuppression, promote dry matter intake, and thus enhance lactation performance. Evidence is accumulating on the positive role of methionine on gene transcription and fetal programming opening the doors for a more efficient, sustainable dairy production industry. Dr. Johan Osorio, South Dakota State University Smart Science SeriesThrough the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability. During this Webinar Dr. Johan Osorio, South Dakota State University is presnting his insights on: Metionine's Impact on Sustainable Performance Methionine, beyond being the key building block in milk protein synthesis, plays other important... FeedChannel 53:59 <p>During this Webinar Dr. Johan Osorio, South Dakota State University is presnting his insights on: Metionine's Impact on Sustainable Performance Methionine, beyond being the key building block in milk protein synthesis, plays other important metabolic roles to facilitate the transition from dry cow to lactating cow. Methionine’s impact on liver function at many levels is important to minimize health challenges around parturition, alleviate immunosuppression, promote dry matter intake, and thus enhance lactation performance. Evidence is accumulating on the positive role of methionine on gene transcription and fetal programming opening the doors for a more efficient, sustainable dairy production industry. <p>Dr. Johan Osorio, South Dakota State University<br> </p><p><br></p><p><b>Smart Science Series</b><br>Through the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability.<br></p></p><p><a href="http://www.feedchannel.online/methionines-impact-on-sustainable"><img src="http://www.feedchannel.online/64968580/66510392/c4fb35de919a024374a4b9daa8125e1c/standard/download-8-thumbnail.jpg" width="600" height="338"/></a></p> AA amino acids body fat calving carnitine metabolism CP crude proteins dairy cows dietary methyl-donors energy balance fatty liver gene regulation HIS histidine histone methylation inflammatory response ketone bodies limiting LYS lysine MET metabolizable proteins methionine methyl donors milk yield oxidative stress peripartal period phospholipid synthesis Smart Science Series transcriptome transition http://www.feedchannel.online/methyl-donors-from-transition-to <p>During this webinar Dr. Jose Santos, Animal Science, University of Florida, USA is presenting his insights on: Methyl donors from transition to lactation Methyl groups play important roles in the metabolic pathways of dairy cows. A shortage of supply particularly during the transition period can have profound effects on postpartum health and whole lactation performance. The ready availability of methyl groups affects numerous cellular functions, impacts phospholipid synthesis, and influences the efficiency of production. There is a complex web of interactions between the different sources of methyl donors that is not yet fully understood.<br><br><br><b>Smart Science Series</b><br>Through the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability.<br></p><p><a href="http://www.feedchannel.online/methyl-donors-from-transition-to"><img src="http://www.feedchannel.online/64968568/66510396/12bb60433646a757ce55c30398324074/standard/download-9-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66510396 Wed, 06 May 2020 00:00:00 GMT Methyl donors from transition to lactation During this webinar Dr. Jose Santos, Animal Science, University of Florida, USA is presenting his insights on: Methyl donors from transition to lactation Methyl groups play important roles in the metabolic pathways of dairy cows. A shortage of supply particularly during the transition period can have profound effects on postpartum health and whole lactation performance. The ready availability of methyl groups affects numerous cellular functions, impacts phospholipid synthesis, and influences the efficiency of production. There is a complex web of interactions between the different sources of methyl donors that is not yet fully understood.Smart Science SeriesThrough the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability. During this webinar Dr. Jose Santos, Animal Science, University of Florida, USA is presenting his insights on: Methyl donors from transition to lactation Methyl groups play important roles in the metabolic pathways of dairy cows. A shortage of... FeedChannel 46:28 <p>During this webinar Dr. Jose Santos, Animal Science, University of Florida, USA is presenting his insights on: Methyl donors from transition to lactation Methyl groups play important roles in the metabolic pathways of dairy cows. A shortage of supply particularly during the transition period can have profound effects on postpartum health and whole lactation performance. The ready availability of methyl groups affects numerous cellular functions, impacts phospholipid synthesis, and influences the efficiency of production. There is a complex web of interactions between the different sources of methyl donors that is not yet fully understood.<br><br><br><b>Smart Science Series</b><br>Through the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability.<br></p><p><a href="http://www.feedchannel.online/methyl-donors-from-transition-to"><img src="http://www.feedchannel.online/64968568/66510396/12bb60433646a757ce55c30398324074/standard/download-9-thumbnail.jpg" width="600" height="338"/></a></p> acetylation choline dairy cows DNA methyl transferase DNMT dry fatty liver feed restriction genetics interactions intermediary metabolism lipoproteins lipotropic milk yield multiparous nulliparous oxidation pathways phosphatidylcholine phospholipids synthesis phosphorylation postpartum prepartum primiparous response Smart Science Series transition period