{"href":"https://api.simplecast.com/oembed?url=https%3A%2F%2Freal-science-exchange.simplecast.com%2Fepisodes%2Fjournal-club-the-effects-of-feeding-ktdm1BpE","width":444,"version":"1.0","type":"rich","title":"October Journal Club 2023","thumbnail_width":300,"thumbnail_url":"https://image.simplecastcdn.com/images/e8503d81-09f2-4bed-80fb-e0a5c8b3df80/0685e76f-da2d-4784-ad89-b0386bffa451/real-science-tile-update-103120.jpg","thumbnail_height":300,"provider_url":"https://simplecast.com","provider_name":"Simplecast","html":"<iframe src=\"https://player.simplecast.com/ca5a1c50-0cc3-45a1-8af3-2ffc44c26d7f\" height=\"200\" width=\"100%\" title=\"October Journal Club 2023\" frameborder=\"0\" scrolling=\"no\"></iframe>","height":200,"description":"Kirby begins with a description of the mechanism of amylase-enhanced corn. The amylase is located in the kernel and, once activated by temperature change, works to increase the digestibility of the starch. A small amount of activation is thought to occur during silage fermentation, with further activation once it reaches the rumen. This paper evaluated digestibility and milk production in cows fed corn silage made from a hybrid with the amylase-enhanced gene compared to the same hybrid without the genomic enhancement. (4:51)\n"}