by
Lien Vande Maele, Central Technical Manager, Orffa Additives BV, Belgium
Betaine, also known as trimethylglycine, is a multifunctional compound, found naturally in plants and in animals, and also available in different forms as an additive for animal feed. The metabolic function of betaine as a methyldonor is known by most nutritionists.
Betaine is, just like choline and methionine, involved in the methyl group metabolism in the liver and donates its labile methyl group for the synthesis of several metabolically important compounds such as carnitine, creatine and hormones.
Choline, methionine and betaine are all related in the methyl group metabolism. Therefore, supplementation of betaine can reduce the requirements for these other methyl group donors. Consequently, one of the well-known applications of betaine in animal feed is replacing (part of the) choline chloride and added methionine in the diet.
Depending on market prices, these replacements in general save feed costs, while maintaining performance results. When betaine is used to replace other methyldonors, betaine is rather used as a commodity, meaning dosage of betaine in feed formulation can be variable and depends on prices of related compounds such as choline and methionine.
But, betaine is more than just a methyl donating nutrient and inclusion of betaine in feed should be considered as a means of improving performance.
Betaine as osmoprotectant
Besides its function as a methyldonor, betaine acts as an osmoregulator. When betaine is not metabolised by the liver in the methyl group metabolism, it comes available for cells to use as an organic osmolyte.
As an osmolyte, betaine increases intracellular water retention, but moreover, it will also protect cellular structures like proteins, enzymes and DNA. This osmoprotective property of betaine is very important for cells experiencing (osmotic) stress. Thanks to the increase in their intracellular betaine concentration, stressed cells can better preserve their cellular functions such as enzyme production, DNA replication and cell proliferation.
Due to the better preservation of cellular function, betaine may have the potential to improve animal performance especially under specific stress situations (heat stress, coccidiosis challenge, water salinity, etc). The additional supplementation of betaine to the feed has proven to be beneficial in different situations and for different animal species.
Read more HERE.
Betaine, also known as trimethylglycine, is a multifunctional compound, found naturally in plants and in animals, and also available in different forms as an additive for animal feed. The metabolic function of betaine as a methyldonor is known by most nutritionists.
Betaine is, just like choline and methionine, involved in the methyl group metabolism in the liver and donates its labile methyl group for the synthesis of several metabolically important compounds such as carnitine, creatine and hormones.
Choline, methionine and betaine are all related in the methyl group metabolism. Therefore, supplementation of betaine can reduce the requirements for these other methyl group donors. Consequently, one of the well-known applications of betaine in animal feed is replacing (part of the) choline chloride and added methionine in the diet.
Depending on market prices, these replacements in general save feed costs, while maintaining performance results. When betaine is used to replace other methyldonors, betaine is rather used as a commodity, meaning dosage of betaine in feed formulation can be variable and depends on prices of related compounds such as choline and methionine.
But, betaine is more than just a methyl donating nutrient and inclusion of betaine in feed should be considered as a means of improving performance.
Betaine as osmoprotectant
Besides its function as a methyldonor, betaine acts as an osmoregulator. When betaine is not metabolised by the liver in the methyl group metabolism, it comes available for cells to use as an organic osmolyte.
As an osmolyte, betaine increases intracellular water retention, but moreover, it will also protect cellular structures like proteins, enzymes and DNA. This osmoprotective property of betaine is very important for cells experiencing (osmotic) stress. Thanks to the increase in their intracellular betaine concentration, stressed cells can better preserve their cellular functions such as enzyme production, DNA replication and cell proliferation.
Due to the better preservation of cellular function, betaine may have the potential to improve animal performance especially under specific stress situations (heat stress, coccidiosis challenge, water salinity, etc). The additional supplementation of betaine to the feed has proven to be beneficial in different situations and for different animal species.
Read more HERE.
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