Abstract
Barley is a medicinal and edible crop that is not only the most stress tolerant and comprehensively utilized cereal, but is also a functional food crop used in strategies for chronic disease prevention, such as reduction of obesity and Type II diabetes. Using spectrophotometry methods, four functional components in 830 accessions of Yunnan improved landraces barley grains have been detected: resistant starch, total flavonoids, total alkaloids, and γ-aminobutyric acid. The average content of resistant starch was 3.57 ± 2.72 mg/100 g. The average content of total flavonoids was 133.09 ± 27.65 mg/100 g. The average content of total alkaloids was 21.26 ± 9.18 mg/100 g. The average content of γ-aminobutyric acid was 5.70 ± 2.82 mg/100 g. Sixty accessions of high functional components of high superior landraces were detected, including 14 accessions with high content of total flavonoids (content >195 mg/100 g), 17 accessions with high content of resistant starch (content >12%), 11 accessions of high content of total alkaloids (content >45.19 mg/100 g), 18 accessions of high content of γ-aminobutyric acid (content >13.03 mg/100 g). These superior barley functional landraces offer excellent landraces for barley breeding. By correlation analysis of four functional components of barley grain, total flavonoids and γ-aminobutyric acid have a significant negative correlation (r = −0.154**, n = 830), total flavonoids and resistant starch have a significant negative correlation (r = −0.097**, n = 830), total alkaloids and γ-aminobutyric acid have a significant negative correlation (r = −0.096**, n = 830), and γ-aminobutyric acid and resistant starch have a significant negative correlation(r = −0.122**, n = 830). By a principal component analysis of functional components, the first principal component is γ-aminobutyric acid and the second is resistant starch, followed be flavonoids. Content of γ-aminobutyric acid changes the most, followed by resistant starch and flavonoids.
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References
Chen, Q. Q. (2003). Functionality and its market development of catechins. Global Food Industry, 10, 28–29.
Goñi, I., García-Diaz, L., Mañas, E., et al. (1996). Analysis of resistant starch: A method for food products. Food Chemistry, 56, 445–449.
He, X. P., Zhang, M., Li, J. F., et al. (2007). The physiological function of γ-aminobutyric acid and the general research about γ-aminobutyric acid. Journal of Guangxi University (Natural Sciences Edition), 32, 464–466.
Inatomi, K., & Slaughter, J. C. (1971). The role of glutamate decarbozylase and γ-aminobutyric acid in germinating barley. Journal of Experimental Botany, 22, 561–571.
Kim, M. J., Hyun, J. N., Kim, J. A., et al. (2007). Relationship between phenolic compounds, anthocyanins content and antioxidant activity in colored barley germplasm. Journal of Agricultural and Food Chemistry, 55(12), 4802–4809.
Li, M. (2008). Advances on the physiologicalfunction of resistantstarch. Journal of Hygiene Research, 37(5), 640–643.
Lian, X. J., & Li, J. Y. (2008). Research advance on resistant starch physiological function. Cereals Oils, 7, 3–5.
Liang, D., Li, Z. W., Li, M., et al. (2007). Research and application of natural alkaloids. Journal of Anhui Agricultural Sciences, 35(35), 11340–11342.
Qin, Z. L., & Jiang, Y. R. (2006). Supercritical fluid extraction in progress extraction of alkaloids. Chemical Industry Times, 20(7), 60–63.
Tan, X. R., Zhang, W. M., & Gong, Z. L. (2005). Research on quercetin functional properties. Cereals Oils, 11, 46–48.
Tang, L., Zhang, L. J., & Wang, M. Q. (2006). Research advances on myricetin in Bayberry. Chinese Traditional Patent Medicine, 28(1), 121–122.
Yang, T., Zeng, Y. W., **ao, F. H., et al. (2007). Research progress on medicinal barley. Journal of Triticeae Crops, 27(6), 1154–1158.
Yu, P. Z., Yao, L. Y., & Wang, L. P. (1988). HPLC method for the determination dysosma injection Zhongshan Chennai phenol content. Chinese Traditional Patent Medicine, 20(6), 19–20.
Zhao, K., Zhang, S. W., & Fang, G. Z. (2002). Study on physiological functions of resistant starch and its application in food industry. Journal of Harbin University Communications (Natural Sciences Edition), 18(6), 661–663.
Zhao, D. W., Pu, X. Y., Zeng, Y. W., et al. (2009). Determination of the γ-aminobutyric acid in barley grain. Journal of Triticeae Crops, 29(1), 69–72.
Zhuang, X. P., Yu, X. Y., Yang, G. S., et al. (1992). Such as Ginkgo biloba flavonoids and extraction method. Chinese Traditional Herbal Drugs, 23(3), 122–124.
Acknowledgments
This research was supported by China Agriculture Research System (CARS-05). We are grateful for many valuable suggestions from Professor Benxun Li; Miss Sha Li assisted with some determinations and analyses for functional components in barley grains.
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© 2013 Zhejiang University Press and Springer Science+Business Media Dordrecht
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Yang, T., Zeng, YW., Pu, XY., Du, J., Yang, SM. (2013). Correlation Analysis of Functional Components of Barley Grain. In: Zhang, G., Li, C., Liu, X. (eds) Advance in Barley Sciences. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-4682-4_17
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DOI: https://doi.org/10.1007/978-94-007-4682-4_17
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