Kvasny Prum. 2014; 60(10): 258-265 | DOI: 10.18832/kp2014025

Barley grain non-starch polysaccharides with malting and nutritional significance.Peer-reviewed article

Pavel MACHÁŇ, Jaroslava EHRENBERGEROVÁ, Radim CERKAL
Mendelova univerzita v Brně, Zemědělská 1, 613 00 Brno

Non-starch polysaccharides (NSPs), (arabinoxylans and beta-glucans), a main component of cell walls of barley grain, are a limiting factor for the utilization of barley production. Arabinoxylans are formed by (1→4)-ß-D-xylanopyrosyl units substituted with a-L-arabinofuranose. Arabinoxylans are esterified by ferulic acid. Beta-glucans are formed by ß-(1→3),(1→4)-D-glucans, ß-(1→4) linkages account for ca 70 %, ß-(1→3) for the remaining 30 %. NSP concentration in a barley grain is mainly affected by a genotype, growing environment and intensity of vegetation treatment. NSPs can be a cause of technological and economic problems encountered during brewing. However, their content can be reduced by the addition of relevant hydrolytic enzymes. On the other hand, the NSPs form a valuable component of dietary fiber that helps lower LDL cholesterol and glucose level in blood, insulin response to meal, body weight, blood pressure, risk of heart disease and colon cancer, simultaneously they alleviate the course of type II diabetes. As a prebioticum, they create an unsuitable environment for the growth of pathogenic bacterial species. Based on scientific data, the European Commission issued Regulation no. 1048/2012 authorizing a health claim of effects of beta-glucans on human health.Non-starch polysaccharides (NSPs), (arabinoxylans and beta-glucans), a main component of cell walls of barley grain, are a limiting factor for the utilization of barley production. Arabinoxylans are formed by (1→4)-ß-D-xylanopyrosyl units substituted with a-L-arabinofuranose. Arabinoxylans are esterified by ferulic acid. Beta-glucans are formed by ß-(1→3),(1→4)-D-glucans, ß-(1→4) linkages account for ca 70 %, ß-(1→3) for the remaining 30 %. NSP concentration in a barley grain is mainly affected by a genotype, growing environment and intensity of vegetation treatment. NSPs can be a cause of technological and economic problems encountered during brewing. However, their content can be reduced by the addition of relevant hydrolytic enzymes. On the other hand, the NSPs form a valuable component of dietary fiber that helps lower LDL cholesterol and glucose level in blood, insulin response to meal, body weight, blood pressure, risk of heart disease and colon cancer, simultaneously they alleviate the course of type II diabetes. As a prebioticum, they create an unsuitable environment for the growth of pathogenic bacterial species. Based on scientific data, the European Commission issued Regulation no. 1048/2012 authorizing a health claim of effects of beta-glucans on human health.

Keywords: arabinoxylans, beta-glucans, spring barley

Received: August 15, 2014; Accepted: September 10, 2014; Published: October 1, 2014 

References

  1. AbuMweis, S. S., Jew, S., Ames, N. P., 2010: ß-Glucan from barley and its lipid-lowering capacity: a meta-analysis of randomized, controlled trials. Eur. J. Clin. Nutr. 64(12): 1472-1480. Go to original source...
  2. Andersson, A. M., Lampi, A. M., Nyström, L., Piironen, V., Li L., Ward, J. L., Gebruers, K., Courtin, C. M., Delcour, J., Boros, D., Fraś, A., Dynkowska, W., Rakszegi, M., Bedo, Z., Shewry, P. R., Aman, P., 2008: Phytochemical and dietary fiber components in barley varieties in the HEALTHGRAIN Diversity Screen. J. Agric. Dietary Chem. 56(21): 9767-9776. Go to original source...
  3. Babio, N., Balanza, R., Basulto, J., Bulló, M., Salas-Salvadó, J., 2010: Dietary fibre: influence on body weight, glycemic control and plasma cholesterol profile. Nutr Hosp. 25(3): 327-340.
  4. Baik, B. K., Ullrich, S. E., 2008: Barley for dietary: Characteristics, improvement, and renewed interest. J. Cereal Sci., 48(2): 233-242. Go to original source...
  5. Balounová, M., Vaculová, K., Hložková, L., Mikulíková, R., Ehrenbergerová, J., 2013: The effect of the changed amylose and amylopectin ratio on the selected qualitative parameters in spring barley (Hordeum vulgare L.) grain. Acta Univ. Agric. Silvic. Mendelianae Brun. 61(3): 577-585. Go to original source...
  6. Bamforth, C. W., Kanauchi, M., 2001: A simple model for the cell wall of the starchy endosperm in barley. J. Inst. Brew. 107(4): 235-240. Go to original source...
  7. Behall, K. M., Schofield, D. J., Hallfrisch, J. G. 2004: Diets containing barley significantly reduce lipids in mildly hypercholesterolemic men and women. Am. J. Clin. Nutr. 80(5): 1185-1193. Go to original source...
  8. Běláková, S., Benešová, K., Mikulíková, R., Svoboda, Z., 2010: Sledování změn obsahu ferulové kyseliny v pivovarských surovinách metodou UPLC s PDA detekcí. Kvasny Prum. 56(6): 266-269. Go to original source...
  9. Benito-Román, O., Alonso, E., Lucas, S., 2011: Optimization of the ß-glucan extraction conditions from different waxy barley cultivars. J. Cereal Sci. 53(3): 271-276. Go to original source...
  10. Bhatty, R. S. 1996: Production of dietary malt from hull-less barley. Cereal Chem. 73(1): 75-80.
  11. Brennan, C. S., Cleary, L. J., 2005: The potential use of cereal (1→3,1→4)-ß-d-glucans as functional dietary ingredients. J. Cereal Sci. 42(1): 1-13. Go to original source...
  12. Březinová Belcredi, N., Ehrenbergerová, J., Běláková, S., Vaculová, K., 2009: Barley grain as a source of health-beneficial substances. Czech J. Dietary Sci. 27: S242-S244. Go to original source...
  13. Cyran, M., Izydorczyk, M. S., Macgregor, A. W., 2002: Structural characteristics of water-extractable nonstarch polysaccharides from barley malt 1. Cereal Chem. 79 (3): 359-366. Go to original source...
  14. Dickin, E., Steele, K., Frost, G., Edwards-Jones, G., Wright, D., 2011: Effect of genotype, environment and agronomic management on ß-glucan concentration of naked barley grain intended for health dietary use. J. Cereal Sci. 54(1): 44-52. Go to original source...
  15. Djoussé, L., Gaziano, J. M., 2007: Breakfast cereals and risk of heart failure in the Physicians' Health Study I. Arch. Intern. Med. 167(19): 2080-2085. Go to original source...
  16. EFSA, 2009: Panel on dietetic products and nutrition and allergies (NDA): Scientific Opinion on the substantiation of health claims related to beta-glucans and maintenance of normal blood cholesterol concentrations (ID 754, 755, 757, 801, 1465, 2934) and maintenance or achievement of a normal body weight (ID 820, 823).
  17. EFSA J. 7(1924): 1-18. EFSA, 2011: Panel on dietetic products and nutrition and allergies (NDA): Scientific Opinion on the substantiation of a health claim related to barley beta-glucans and lowering of blood cholesterol and reduced risk of (coronary) heart disease pursuant to Article 14 of Regulation (EC). EFSA J. 9(12) 1-14. Go to original source...
  18. Ehrenbergerová, J., 2006: Chemické složení zrna ječmene. In: Zimolka, J. Ječmen - formy a užitkové směry v České republice. Praha.: Profi Press. ISBN 9788086726182.
  19. Ehrenbergerová, J., Březinová Belcredi, N., Psota, V., Hrstková, P., Cerkal, R., Newman, C. W., 2008: Changes caused by genotype and environmental conditions in beta-glucan content of spring barley for dietetically beneficial human nutrition. Plant Dietarys Hum. Nutr. 63(3): 111-117. Go to original source...
  20. Ehrenbergerová, J., Prokopcová, Z., Běláková, S., Cerkal, R., Pluháčková, H., Vaculová, K., Smutná, P., 2012: Variability in free and total ferulic acid content in spring barley caryopses. Kvasny prum. 58(7-8): 201-208. Go to original source...
  21. El Khoury, D., Cuda, C., Luhovy, B. L., Anderson, G. H., 2012: Beta glucan: health benefits in obesity and metabolic syndrome. J. Nutr. Metab. 2012(28): 1-28. Go to original source...
  22. Gamlath, J., Aldred, G. P., Panozzo, J. F., 2008: Barley (1→3; 1→4)-ß-glucan and arabinoxylan content are related to kernel hardness and water uptake. J. Cereal Sci. 47(2): 365-371. Go to original source...
  23. Güler, M., 2003: Barley grain ß-glucan content as affected by nitrogen and irrigation. F. Crop. Res. 84(1): 335-340. Go to original source...
  24. Gupta, M., Abu-Ghannam, N., Gallaghar, E., 2010: Barley for brewing: characteristic changes during malting, brewing and applications of its by-products. Compr. Rev. Dietary Sci. Dietary Saf. 9(3): 318-328. Go to original source...
  25. Han, J. Y., 2000: Structural characteristics of arabinoxylan in barley, malt, and beer. Dietary Chem. 70(2): 131-138. Go to original source...
  26. Havlová, P., 1999: Hydrolytické a oxidoredukční enzymy ječného sladu: (studijní zpráva). Praha: Ústav zemědělských a potravinářských informací. ISBN 9788072710409.
  27. Havlová, P., Lancová, K., Váňová, M., Havel, J., Hajšlová, J., 2006: The effect of fungicidal treatment on selected quality parameters of barley and malt. J. Agric. Dietary Chem, 54(4): 1353-1360. Go to original source...
  28. Havrlentová, M., Križanová, K., Žofajová, A., Gubiš, J., 2010: Malting quality and grain yield of spring barley genotypes. In: Proceedings of the 6th International Conference on Polysaccharides-Glycoscience 2010. Praha 6. 96-99.
  29. Havrlentová, M., Petruláková, Z., Burgárová, A., Gago, F., Hlinková, A., Šturdík, E., 2011: Cereal beta-glucans and their significance for the preparation of functional dietarys-a review. Czech J. Dietary Sci. 29(1): 1-14. Go to original source...
  30. Holtekjølen, A. K., Uhlen, A. K., Bråthen, E., Sahlstrøm, S., Knutsen, S. H., 2006: Contents of starch and non-starch polysaccharides in barley varieties of different origin. Dietary Chem. 94(3): 348-358. Go to original source...
  31. Holtekjølen, A. K., Uhlen, A. K., Knutsen, S. H., 2008: Barley carbohydrate composition varies with genetic and abiotic factors. Acta Agric. Scand. Sect. B - Plant Soil Sci. 58(1): 27-34. Go to original source...
  32. Chandalia, M., Garg, A., Lutjohann, D., Bergmann, K., Grundy, S. M., Brinkley, L. J., 2000: Beneficial effects of high dietary fiber intake in patients with type 2 diabetes mellitus. N. Engl. J. Med. 342(19): 1392-1398. Go to original source...
  33. Chen, J., Raymond, K., 2008: Beta-glucans in the treatment of diabetes and associated cardiovascular risks. Vasc. Health Risk Manag. 4(6): 1265-1272. Go to original source...
  34. Chloupek, O., 2008: Genetická diverzita, šlechtění a semenářství. Praha: Academia, ISBN 978-80-200-1566-2.
  35. Ibrügger, S., Kristensen, M., Poulsen, M. W., Mikkelsen, M. S., Ejsing, J., Jespersen, B. M., Dragsted, L. O., Engelsen, S. B., Bügel, S., 2013: Extracted oat and barley ß-glucans do not affect cholesterol metabolism in young healthy adults. J. Nutr. 143(10): 1579-1585. Go to original source...
  36. Iji, P., 1999: The impact of cereal non-starch polysaccharides on intestinal development and function in broiler chickens. Worlds Poult. Sci. J. 55(12): 375-387. Go to original source...
  37. Izydorczyk, M. S., Dexter, J. E., 2008: Barley ß-glucans and arabinoxylans: Molecular structure, physicochemical properties, and uses in dietary products-a Review. Dietary Res. Int. 41(9): 850-868. Go to original source...
  38. Jamar, C., Jardin, P., Fauconnier, M. L., 2011: Cell wall polysaccharides hydrolysis of malting barley (Hordeum vulgare L.): a review. Biotechnol. Agron. Soc. Env. 15(2): 301-313.
  39. Keenan, J. M., Goulson, M., Shamliyan, T., Knutson, N., Kolberg, L., Curry, L., 2007: The effects of concentrated barley beta-glucan on blood lipids in a population of hypercholesterolaemic men and women. Br. J. Nutr. 97(6): 1162-1168. Go to original source...
  40. Keogh, G. F., Cooper, G. J. S., Mulvey, T. B., Mcardle, B. H., Coles, G. D., Monro, J. A., Poppitt, S. D., 2003: Randomized controlled crossover study of the effect of a highly beta-glucan-enriched barley on cardiovascular disease risk factors in mildly hypercholesterolemic men. Am. J. Clin. Nutr. 78(4): 711-718. Go to original source...
  41. Kochar, J., Djoussé, L., Gaziano, J. M., 2007: Breakfast cereals and risk of type 2 diabetes in the Physicians' Health Study I. Obesity (Silver Spring). 15(12): 3039-3044. Go to original source...
  42. Kosař, K., Psota, V., Havlová, P., Šusta, J., 2000: Sladovnický ječmen. In: Kosař, K., Procházka, S., (eds.). Technologie výroby sladu a piva. Praha: VÚPS. 30-62. ISBN 80-902658-6-3.
  43. Kosař, K., 2000: Náhražky sladu. In: Kosař, K., Procházka, S., (eds.). Technologie výroby sladu a piva. Praha: VÚPS. 122-126. ISBN 80-902658-6-3.
  44. Križanová, K., Žofajová, A., 2010: Grain yield and malting quality of new spring barley genotypes. Agric. 56(3) 90-94.
  45. Kůst, F., Potměšilová, J., 2013: Situační a výhledová zpráva obiloviny. Praha: Ministerstvo zemědělství. ISBN 9788074341342.
  46. Lazaridou, A., Biliaderis, C. G., 2007: Molecular aspects of cereal ß-glucan functionality: Physical properties, technological applications and physiological effects. J. Cereal Sci. 46(2): 101-118. Go to original source...
  47. Lazaridou, A., Chornick, T., Biliaderis, C. G., Izydorczyk, M. S., 2008: Composition and molecular structure of polysaccharides released 265 Kvasny prum. 60/2014 (10) Sladovnicky a dieteticky významné neškrobové polysacharidy zrna ječmene from barley endosperm cell walls by sequential extraction with water, malt enzymes, and alkali. J. Cereal Sci., 48(2): 304-318. Go to original source...
  48. Leiper, K. A., Miedl, M., 2008: Colloidal stability of beer. In: Bamforth, C. W., Russell, I., Stewart, G., Beer: A Quality Perspective. Burlington, MA: Academic Press. 111-154. ISBN 9780126692013. Go to original source...
  49. Li, Y., Lu, J., Gu, G., Shi, Z., Mao, Z., 2005: Studies on water-extractable arabinoxylans during malting and brewing. Dietary Chem. 93(1): 33-38. Go to original source...
  50. Liu, S., Manson, J. E., Stampfer, M. J., Hu, F. B., Giovannucci, E., Colditz, G. A., Hennekens, C. H., Willett, W. C., 2000: A prospective study of whole-grain intake and risk of type 2 diabetes mellitus in US women. Am. J. Public Health. 90(9): 1409-1415. Go to original source...
  51. Lu, J., Li, Y., 2006: Effects of arabinoxylan solubilization on wort viscosity and filtration when mashing with grist containing wheat and wheat malt. Dietary Chem. 98(1): 164-170. Go to original source...
  52. Lu, Z. X., Walker, K. Z., Muir, J. G., O'Dea, K., 2004: Arabinoxylan fibre improves metabolic control in people with Type II diabetes. Eur. J. Clin. Nutr. 58(4): 621-628. Go to original source...
  53. Marangioni, F., Poli, A., 2008: The glycemic index of bread and biscuits is markedly reduced by the addition of a proprietary fiber mixture to the ingredients. Nutr. Metab. Cardiovasc. Dis. 18(9) 602-605. Go to original source...
  54. Mendis, M., Simsek, S., 2013: Arabinoxylans and human health. Dietary Hydrocoll. 2013: 3-7.
  55. Mikkelsen, M. S., Jespersen, B. M., Larsen, F. H., Blennow, A., Engelsen, S. B., 2013: Molecular structure of large-scale extracted ß-glucan from barley and oat: Identification of a significantly changed block structure in a high ß-glucan barley mutant. Dietary Chem. 136(1): 130-138. Go to original source...
  56. Mikyška, A., Prokeš, J., Běláková, S., 2010: The influence of barley origin and malting technology on ferulic acid content in barley and malt. Kvasny Prům. 56(3): 145-151. Go to original source...
  57. Mitsou, E. K. K., Panopoulou, N., Turunen, K., Spiliotis, V., Kyradicou, A., 2010: Prebiotic potential of barley derived ß-glucan at low intake levels: A randomised, double-blinded, placebo-controlled clinical study. Dietary Res. Int. 43(4): 1086-1092. Go to original source...
  58. Mrkvicová, E., 2006: Nutriční hodnocení komplexu vlákniny z pohledu trávení. In: Zeman, L. Výživa a krmení hospodářských zvířat. Praha: Profi Press. 93-99. ISBN 9788086726175.
  59. Newman, C. W., Newman, R. K., 2005: Hulles Barley for Dietary and Feed. In Abdel-Aal, E., Wood, P. J., Specialty Grains for Dietary and Feed. St. Paul, Minn.: American Association of Cereal Chemists, Inc. ISBN 1891127411.
  60. Newman, R. K., Newman, C. W., 2008. Barley for dietary and health: Science, technology, and products. 1st ed. Hoboken: John Wiley & Sons. ISBN 9780470102497. Go to original source...
  61. Niño-Medina, G., Carvajal-Millán, E., Rascon-Chu, A., Marquez-Escalante, J. A., Guerrero, V., Salas-Muñoz, E., 2009: Feruloylated arabinoxylans and arabinoxylan gels: structure, sources and applications. Phytochem. Rev. 9(1): 111-120. Go to original source...
  62. O'Shea, C. J., Gahan, D. A., Lynch, M. B., Callan, J. J., O'Doherty, J. V., 2010: Effect of ß-glucan source and exogenous enzyme supplementation on intestinal fermentation and manure odour and ammonia emissions from finisher boars. Livest. Sci. 134(1-3): 194-197. Go to original source...
  63. Oscarsson, M., Andersson, R., Salomonsson, A. C., Åman, P., 1996: Chemical composition of barley samples focusing on dietary fibre components. J. Cereal Sci. 24(2): 161-170. Go to original source...
  64. Patel, S., Goyal, A., 2012: The current trends and future perspectives of prebiotics research: a review. 3 Biotech. 2(2): 115-125. Go to original source...
  65. Pritchard, J. R, Lawrence, G. J., Larroque, O., Li Z., Laidlaw, H. K., Morell, M. K., Rahman, S., 2011: A survey of ß-glucan and arabinoxylan content in wheat. J. Sci. Dietary Agric. 91(7): 1298-303. Go to original source...
  66. Salas-Salvadó, J., Bulló, M., Pérez-Heras, A., Ros, E., 2006: Dietary fibre, nuts and cardiovascular diseases. Br. J. Nutr. 96(S2): S45-S51. Go to original source...
  67. Samuelsen, A. B., Rieder, A., Grimmer, S., Michaelsen, T. E., Knutsen, S. H., 2011: Immunomodulatory activity of dietary fiber: arabinoxylan and mixed-linked beta-glucan isolated from barley show modest activities in vitro. Int. J. Mol. Sci. 12(1): 570-587. Go to original source...
  68. Sanchez, J. I., Marzorati, M., Grootaert, C., Baran, M., Van Craeyveld, V., Courtin, C. M., Broekaert, W. F., Delcour, J. A., Verstraete, W., Van De Wiele, T., 2009: Arabinoxylan-oligosaccharides (AXOS) affect the protein/carbohydrate fermentation balance and microbial population dynamics of the Simulator of Human Intestinal Microbial Ecosystem. Microb. Biotechnol. 2(1): 101-113. Go to original source...
  69. Sharifi, S. D., Shariatmadari, F., Yaghobfar, A., 2012: Effects of Inclusion of Hull-Less Barley and Enzyme Supplementation of Broiler Diets on Growth Performance, Nutrient Digestion and Dietary Metabolisable Energy Content. J. Cent. Eur. Agric. 13(1): 193-207. Go to original source...
  70. Shimizu, C., Kihara, M., Aoe, S., Araki, S., Ito, K., Hayashi, K., Watari, J., Sakata, Y., Ikegami, S., 2008: Effect of high beta-glucan barley on serum cholesterol concentrations and visceral fat area in Japanese men - a randomized, double-blinded, placebo-controlled trial. Plant Dietarys Hum. Nutr. 63(1): 21-25. Go to original source...
  71. Schroeder, N., Gallaher, D. D., Arndt, E. A., Marquart, L., 2009: Influence of whole grain barley, whole grain wheat, and refined rice- -based dietarys on short-term satiety and energy intake. Appetite. 53(3): 363-369. Go to original source...
  72. Slavin, J. L., 2005: Dietary fiber and body weight. Nutrition. 21(3): 411-418. Go to original source...
  73. Smith, K. N., Queenan, K. M., Thomas, W., Fulcher, R. G., Slavin, J. L., 2008: Physiological effects of concentrated barley beta-glucan in mildly hypercholesterolemic adults. J. Am. Coll. Nutr. 27(3): 434-440. Go to original source...
  74. Škrbić, B., Milovac, S., Dodig, D., Filipčev, B., 2009: Effects of hull- -less barley flour and flakes on bread nutritional composition and sensory properties. Dietary Chem. 115(3): 982-988. Go to original source...
  75. Tovar, J., Nilsson, A., Johansson, M., Ekesbo, R., Aberg, A. M., Johansson, U., Björck, I., 2012: A diet based on multiple functional concepts improves cardiometabolic risk parameters in healthy subjects. Nutr. Metab. (Lond). 9(29): 1-11. Go to original source...
  76. Ullrich, S. E., (ed.) 2010: Barley: Production, Improvement, and Uses. Ames, IA, USA: Wiley-Blackwell. ISBN 0470958626. Go to original source...
  77. Velíšek, J., 2002: Chemie potravin: 1. Tábor: OSSIS., ISBN 9788086659008.
  78. Viëtor, R. J., Voragen A. G. J., Angelino S. A. G. F., 1993: Composition of non-starch polysaccharides in wort and spent grain from brewing trials with malt from a good malting quality barley and a feed barley. J. Inst. Brew. 99(3): 243-248. Go to original source...
  79. Vitaglione, P., Lumaga, R. B., Stanzione, A., Scalfi, L., Fogliano, V., 2009: Beta-glucan-enriched bread reduces energy intake and modifies plasma ghrelin and peptide YY concentrations in the short term. Appetite. 53(3): 338-344. Go to original source...
  80. Wang, J., Zhang, G., Chen, J., Wu, F., 2004: The changes of ß- -glucan content and ß-glucanase activity in barley before and after malting and their relationships to malt qualities. Dietary Chem. 86(2): 223-228. Go to original source...
  81. Wolever, T. M. S., Gibbs, A. L., Brand-Miller, J., Duncan, A. M., Hart, V., Lamarche B., Tosh, S. M., Duss, R., 2011: Bioactive oat ß-glucan reduces LDL cholesterol in Caucasians and non-Caucasians. Nutr. J. 10(1): 130-134. Go to original source...

Return to the content