Varietal and Annual Variations of β-Glucan Contents in Korean Barley (Hordeum vulgare L.) and Oat (Avena sativa L.) Cultivars |
Lee, Mi-Ja
(National Institute of Crop Science, Rural Development Administration)
Yoo, Jae-Soo (National Institute of Crop Science, Rural Development Administration) Kim, Yang-Kil (National Institute of Crop Science, Rural Development Administration) Park, Jong-Chul (National Institute of Crop Science, Rural Development Administration) Kim, Tae-Soo (National Institute of Crop Science, Rural Development Administration) Choi, Jae-Seong (National Institute of Crop Science, Rural Development Administration) Kim, Kee-Jong (National Institute of Crop Science, Rural Development Administration) Kim, Hyung-Soon (Department of Environmental & Chemical Engineering, Seonam University) |
1 | Newman, R. K., C. W. Newman, and H. Graham. 1989. The hypocholesterolemic function of barley -glucans. Cereal Foods world. 34 : 883-885. |
2 | Oscareeon, M., R. Andersson, P. Åman, S. Olofsson, and A. Jonsson. 1998. Effects of cultivar, nitrogen fertilization rate and environment on yield and grain quality of barley. J. Sci. Food and Agric. 78 : 359-366. DOI ScienceOn |
3 | McCleary, B. V. and R. Codd. 1991. Measurement of (1-3), (1-4)--D-glucan in barley and oats: a streamlined enzymic procedure. J. Sci. Food and Agric. 55 : 303-312. DOI |
4 | McCleary, B. V. and D. C. Mugford. 1992. Interlaboratory evaluation of -glucan analysis methods. In the changing role of oats in human and animal nutrition. Proceedings of the fourth international Oat conference, Australia Oct. 19-23. |
5 | McIntosh. G. H., R. K. Newman, and C. W. Newman. 1995. Barley foods and their influence on cholesterol metabolism plants. Human Nutrition. 77 : 89-108. |
6 | Izydorczyk, M. S., J. Storsley, D. Labossiere, A. W. Macgregor, and B. G. Rossnagel. 2000. Variation in total and soluble -glucan content in hulless barley: effects of thermal, physical, and enzymic treatments. J. Agric. Food Chem. 48 : 982-989. DOI ScienceOn |
7 | Gill, S., T. Vasanthan, B. Ooraikul, and B. Rossnagal. 2002. Wheat bread quality as influenced by the substitution of waxy and regular barley flours in their native and cooked forms. J. Cereal Sci. 36 : 239-251. DOI ScienceOn |
8 | Klamczynski, A., B. K. Baik, and Z. Czuchajowska. 1998. Composition, microstructure, water imbibition, and thermal properties of abraded barley. Cereal Chem. 72 : 677-685. |
9 | Klopfenstein, C. F. 1988. The role of cereal beta-glucans in nutrition and health. Cereal Foods World. 33 : 251-260. |
10 | FDA (Food and Drug Administration). 2005. 21 CFR Part 101. Food labeling: Health claims; soluble dietary fiber from certain foods and coronary heart disease. Federal register. 70(246) : 76150-76162. |
11 | Henry, R. J. 1986. Genetic and environmental variation in the pentosan and -glucan contents of barley, and their relation to malting quality. J. Cereal Sci. 4 : 269-277. DOI |
12 | Aman, P. and H. Graham. 1987. Analysis of total and insoluble mixed-linked -(1-3), (1-4)-D-glucans in barley and oats. J. Agric. Food Chem. 35 : 704-709. DOI |
13 | Cui, S. W. 2001. Cereal non-starch polysaccharides I : ,-glucans. In: polysaccharides gums from agricultural products: processing, structure and functionality, Technonomic publishing company, Inc., Lancaster, USA. pp. 103-166. |
14 | Braaten, J. T., P. J. Wood, F. W. Scott, M. K. Wolynetz, W. P. Bradley. 1994. Oat beta-glucan reduces blood cholesterol concentration in hypercholesterolemic subjects. European J. Clinical Nutri. 48 : 465-474. |
15 | Charles, S. B., and J. C. Louise. 2005. The potential use of cereal , -D-glucans as functional food ingredients. J. Cereal Sci. 42 : 1-13. DOI ScienceOn |
16 | American Association of Cereal Chemists. 2003. Report by the AACC Dietary Fiber Technical Committee. All dietary fiber is fundamentally functional, Cereal Foods World. 48 : 128-132. |
17 | Anderson, A. A. M., C. M. Courtin, J. A. Delcour, H. Fedriksson, J. D. Schofield, I. Trough, A. A. Tsiami, P. Aman. 2003. Milling performance of north European hull-less barleys and characterisation of resultant millstreams. Cereal Chem. 80 : 667-673. DOI ScienceOn |
18 | Baik, B. K and E. U. Steven. 2008. Barley for food: characteristics, improvement and renewed interest. J. Cereal Sci. 48 : 233-242. DOI ScienceOn |
19 | Bendelow, V. M. 1975. Determination of non-starch polysaccharides in barley breeding programs. J. Ins. Brewing. 81 : 127-130. DOI |
20 | Aastrup, S. 1979. The effect of rain on -glucan content in barley grains. Carlsberg Res Commun. 44 : 381-393. DOI |
21 | Newman, R. K., C. W. Newman, J. Fadel, and H. Graham. 1987. Nutritional implications of beta-glucans in barley. Barley Genetics. V : 773-780. |
22 | Wood, P. J., J. T. Braaten, F. W. Scott, K. D. Riedel, M. S. Wolynetz, and M. W. Collins. 1994. Effect of dose and modification of viscous properties of oat gum on plasma glucose and insulin following an oral glucose load. British J. Nutri. 72 : 731-743. DOI |
23 | Woodward, J. R., G. B. Fincher, and B. A. Ston. 1983. Watersoluble -glucans from barley (Hordeum vulgare) endosperm. II. Fine structure. Carbohyd. Polym. 3 : 207-225. DOI ScienceOn |
24 | Wood, P. J. 1994. Evaluation of oat -glucan and its effects on glycemic response. Carbohyd. Polym. 25 : 331-336. DOI ScienceOn |
25 | Trogh, I., C. M. Courtin, A. A. M. Andersson, P. Aman, J. F. SOrensen, and Delcour J. A. 2004. The combined use of hull-less barley flour and xylanase as a strategy for wheat/ hull-less barley flour breads with increased arabinoxylan and -D-glucan levels. J. Cereal Sci. 40 : 257-267. DOI ScienceOn |
26 | Ulrich, S. E., J. A. Clancy, R. F. Eslick, and Lance R. C. M. 1986. -Glucan content and viscosity of extracts from waxy barley. J. Cereal Sci. 4 : 11-18. |
27 | Papageorgiou, M., N. Lakhdara, A. Lazaridou, C. G. Biliaderis, and M. S. Izydorczyk. 2005. Water extractable ,-D-glucans from barley and oats: an intervarietal study on their structural features and rheological behaviour. J. Cereal Sci. 42 : 213-224. DOI ScienceOn |
28 | Paul, S., O. John, B. Nigel, L. G. Vivian, A. Elke, and G. Eimear. 2010. Chemical composition and microstructure of milled barley. Eur. Food Res. Technol. 230 : 579-595. DOI ScienceOn |
29 | Quinde, Z., S. E. Ullrich, and B. K. Baik. 2004. Genotypic variation in color and discoloration potential of barley-based food products. Cereal Chem. 81 : 752-758. DOI ScienceOn |
30 | Panfili, G., A. Fratianni, D. T. Criscio,and E. Marconi. 2008. Tocol and -glucan levels in barley varieties and in pearling by-products. Food Chem. 107 : 84-91. DOI ScienceOn |