摘要
Ten millet cultivars from China and abroad were analyzed for their crude fat, amylose and amylopectin, crude protein and amino acid content. A wide variation was observed in amylopectin contain, ranging from 54.47% to 69.26%, while amylose content ranged from 11.26% to 23.22%. The average crude fat in all cultivates was 3.46%, and most cultivates ranged from 3.1% to 3.7%. Protein contents ranged from 8.61% to 15.54% with a mean value of 11.94%. For amino acid composition, the ten cultivates were particularly rich in leucine, and the mean was 34.57 mg/g. The millet cultivars were also high in glycine, glutamic acid and cysteine. Millet was known to be limiting in the essential amino lysine, and the mean was 5.18 mg/g. Other amino acids, tyrosine, histidine and arginine were also very low in the ten cultivars. In general, significant nutrient composition differences were observed between the different millet cultivars, and A2 (a kind of mother line of the hybrid millet) and hybrid millet registered a higher level of protein and amino acid composition which would be useful in millet breeding.
Ten millet cultivars from China and abroad were analyzed for their crude fat, amylose and amylopectin, crude protein and amino acid content. A wide variation was observed in amylopectin contain, ranging from 54.47% to 69.26%, while amylose content ranged from 11.26% to 23.22%. The average crude fat in all cultivates was 3.46%, and most cultivates ranged from 3.1% to 3.7%. Protein contents ranged from 8.61% to 15.54% with a mean value of 11.94%. For amino acid composition, the ten cultivates were particularly rich in leucine, and the mean was 34.57 mg/g. The millet cultivars were also high in glycine, glutamic acid and cysteine. Millet was known to be limiting in the essential amino lysine, and the mean was 5.18 mg/g. Other amino acids, tyrosine, histidine and arginine were also very low in the ten cultivars. In general, significant nutrient composition differences were observed between the different millet cultivars, and A2 (a kind of mother line of the hybrid millet) and hybrid millet registered a higher level of protein and amino acid composition which would be useful in millet breeding.
基金
Supported by National Millet and Sorghum Industry Technical System(CARS-06-13.5-A5)
Hebei Key Technologies R&DP Program of China(16226310D)
National Key Technologies R&DP Program of China(2014ZX0800909B)
Major Project Foundation of Hebei North University(ZD201305)
作者简介
Guangyu FAN (1982-), Male, P. R. China, Associate researcher, devoted to research about Millet breeding.;Corresponding author. E-mail: fanguangyu0203@126.com;Corresponding author. 22937934@qq.com.
