IUPAC Name
2-amino-4-(methylthio)butanoic acid
Cas Number
59-51-8
HS Code
2930
Formula
C5H11NO2S
Industry
Animal Feed
Appearance
White Powder
Common Names
Metionina
Packaging
Upon confirmed inquiry
Methionine, an amino acid rich in sulfur, plays a crucial role in maintaining the health and productivity of poultry. Its significance spans across various bodily functions. Through the generation of methyl groups, methionine oversees a range of metabolic processes. Moreover, it's indispensable for fostering cell growth and advancing development.
The methionine production process involves several stages:
Firstly, it begins by converting raw materials, capable of methionine production, such as 2-amino-4-methylthiobutyronitrile or 2-amino-4-methylthiobutanamide, via hydrolysis in an aqueous ammonia solution. This conversion is facilitated by a biocatalyst, resulting in an ammonia solution containing methionine.
The subsequent step involves separating the biocatalyst from the methionine-containing ammonia solution obtained in the initial phase.
Finally, the third step revolves around distilling the ammonia from the product obtained in the second step to isolate and segregate methionine crystals.
Methionine, an amino acid rich in sulfur, plays a crucial role in maintaining the health and productivity of poultry. Its significance spans across various bodily functions. Through the generation of methyl groups, methionine oversees a range of metabolic processes. Moreover, it's indispensable for fostering cell growth and advancing development.
The methionine production process involves several stages:
Firstly, it begins by converting raw materials, capable of methionine production, such as 2-amino-4-methylthiobutyronitrile or 2-amino-4-methylthiobutanamide, via hydrolysis in an aqueous ammonia solution. This conversion is facilitated by a biocatalyst, resulting in an ammonia solution containing methionine.
The subsequent step involves separating the biocatalyst from the methionine-containing ammonia solution obtained in the initial phase.
Finally, the third step revolves around distilling the ammonia from the product obtained in the second step to isolate and segregate methionine crystals.
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