Characteristic distributions of fatty acids in different lipids from Jack beans (Canavalia gladiata DC.) |
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Authors: | Hiromi Yoshida Naoko Yoshida Yuka Tomiyama‐Sakamoto Yoshiyuki Mizushina |
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Affiliation: | 1. Department of Nutritional Science, Kobe Gakuin University, Kobe Hyogo, Japan;2. Cooperative Research Center of Life Sciences, Kobe Gakuin University, Kobe Hyogo, Japan;3. Department of Biochemical Sciences, College of Sciences, Ritsumeikan University Kusatu, Shiga, Japan |
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Abstract: | Extracted lipids obtained from Jack beans (white and red) were fractionated by TLC into nine subfractions. The major components were TAGs (TAG: 43.8–45.7 wt%) and phospholipids (PL: 46.7–47.0 wt%), while other components were also present in minor proportions (0.3–2.7 wt%). The principal fatty acids (FA) are generally palmitic (18.8–28.8%), stearic (0.7–6.8%), oleic (42.0–51.8%), linoleic (16.2–22.8%), and α‐linolenic (3.0–8.2%) acids, the distribution of which differs according to these lipid classes. There were no significant differences (p>0.05) in the positional distribution of FA in the TAG; unsaturated FA (97.5%) were predominantly concentrated in the sn‐2 position while saturated FA (33.3%) primarily occupied the sn‐1 position or sn‐3 position. However, significant differences (p<0.05) in FA distribution existed when the individual PL were compared between the white and red beans. Based on the FA composition of these lipids, it seems that the two cultivars of Jack beans are very similar to each other with a few exceptions. The results could be useful to both producers and consumers for our daily diet to improve value of the Japanese diet. Practical applications : The lipid composition suggests that these beans could be a good source of nutraceuticals with providing heath benefits. The white and red beans may be well incorporated into our daily Japanese diets to improve nutritional value. The data obtained in this study provide valuable information for manufacturing functional drinks such as Jack bean tea in Japan. |
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Keywords: | DAG Fatty acid distributions Free fatty acids Jack beans (Canavalia gladiata DC.) Phospholipids Steryl esters |
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