Whole Grains and Health. Группа авторов
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3.8 References
1 Adom, K.K., Sorrells, M.E., and Liu, R.H. (2003). Phytochemical profiles and antioxidant activity of wheat varieties. Journal of Agricultural and Food Chemistry, 51, 7825–7834.
2 Al‐Obaidi, L., Dunford, N.T., and Goad, C. (2013). Mechanical extraction of wheat germ oil Transactions of the Asabe, 56, 1871–1876.
3 Alexander, R.J. (1987). Corn dry milling : processes, products, and applications. In Corn: Chemistry and Technology (eds. S.A. Watson and P.E. Ramstad), pp. 351–375. AACC.
4 Amrein, T.M., Gränicher, P., Arrigon, E., and Amadò, R. (2003). In vitro digestibility and colonic fermentability of aleurone isolated from wheat bran. Lebensmittel‐Wissenschaft un‐d Technology, 36, 451–460.
5 Anson, N.M., Hemery, Y.M., Bast, A., and Haenen, G.R.M.M. (2012). Optimizing the bioactive potential of wheat bran by processing. Food & Function, 3, 362–375.
6 Anson, N.M., Selinheimo, E., Havenaar, R., Aura, A.M., Mattila, I., Lehtinen, P., Bast, A., Poutanen, K., and Haenen, G. (2009). Bioprocessing of wheat bran improves in vitro bioaccessibility and colonic metabolism of phenolic compounds. Journal of Agricultural and Food Chemistry, 57, 6148–6155.
7 Anson, N.M., van den Berg, R., Havenaar, R., Bast, A., and Haenen, G. (2008). Ferulic acid from aleurone determines the antioxidant potency of wheat grain (Triticum aestivum L.). Journal of Agricultural and Food Chemistry, 56, 5589–5594.
8 Antoine, C., Castellon, J., Toureille, A., Rouau, X., and Dissado, L. (2004a). Comparison of constitutive wheat bran tissues by dielectric spectroscopy and effect of their moisture content. Polymer International, 53, 2169–2177.
9 Antoine, C., Peyron, S., Lullien‐Pellerin, V., Abecassis, J., and Rouau, X. (2004b). Wheat bran tissue fractionation using biochemical markers. Journal of Cereal Science, 39, 387–393.
10 Apprich, S., Tirpanalan, Ö., Hell, J., Reisinger, M., Böhmdorfer, S., Siebenhandl‐Ehn, S., Novalin, S., and Kneifel, W. (2014). Wheat bran‐based biorefinery 2: Valorization of products. LWT – Food Science and Technology, 56, 222–231.
11 Bacic, A., and Stone, B.A. (1981). Chemistry and organisation of aleurone cell wall components from wheat and barley. Australian Journal of Plant Physiology, 8, 475–495.
12 Bagdi, A., Szabo, F., Gere, A., Kokai, Z., Sipos, L., and Tomoskozi, S. (2014). Effect of aleurone‐rich flour on composition, cooking, textural, and sensory properties of pasta. Lwt‐Food Science and Technology, 59, 996–1002.
13 Balinova, A., Mladenova, R., and Obretenchev, D. (2006). Effect of grain storage and processing on chlorpyrifos‐methyl and pirimiphos‐methyl residues in post‐harvest‐treated wheat with regard to baby food safety requirements. Food Additives and Contaminants, 23, 391–397.
14 Barnes, P.J., and Jorgensen, K.G. (1987). Fluorimetric measurement of wheat‐germ in milling products. 2. Sodium tetraborate reagent. Journal of Cereal Science, 5, 149–154.
15 Barnes, P.J., and Tester, R.F. (1987). Fluorimetric measurement of wheat‐germ in milling products. 1. Boron‐trifluoride methanol reagent. Journal of Cereal Science, 5, 139–148.
16 Barron, C., Samson, M.F., Lullien‐Pellerin, V., and Rouau, X. (2011). Wheat grain tissue proportions in milling fractions using biochemical marker measurements: Application to different wheat cultivars. Journal of Cereal Science, 53, 306–311.
17 Barron, C., Surget, A., and Rouau, X. (2007). Relative amounts of tissues in mature wheat (Triticum aestivum L.) grain and their carbohydrate and phenolic acid composition. Journal of Cereal Science, 45, 88–96.
18 Barthole, G., Lepiniec, L., Rogowsky, P.M., and Baud, S. (2012). Controlling lipid accumulation in cereal grains. Plant Science, 185–186, 33–39.
19 Blandino, M., Sovrani, V., Marinaccio, F., Reyneri, A., Rolle, L., Giacosa, S., Locatelli, M., Bordiga, M., Travaglia, F., Coisson, J.D., and Arlorio, M. (2013). Nutritional and technological quality of bread enriched with an intermediated pearled wheat fraction. Food Chemistry, 141, 2549–2557.
20 Bohm, A., Bogoni, C., Behrens, R., and Otto, T. (2003). Method for the extraction of aleurone from bran. A.G., B. US Patent application publication US 2003/0175384.
21 Bohm, A., and Kratzer, A. (2008). Method forisolating aleurone particles. A.G., B. US Patent application publication US 2008/02577787 A1.
22 Bottega, G., Caramanico, R., Lucisano, M., Mariotti, M., Franzetti, L., and Pagani, M.A. (2009). The debranning of common wheat (Triticum aestivum L.) with innovative abrasive rolls. Journal of Food Engineering, 94, 75–82.
23 Brandolini, A., and Hidalgo, A. (2012). Wheat germ: Not only a by‐product. International Journal of Food Sciences and Nutrition, 63, 71–74.
24 Brites, C.M., dos Santos, C.A.L., Bagulho, A.S., and Beirao‐Da‐Costa, M.L. (2008). Effect of wheat puroindoline alleles on functional properties of starch. European Food Research and Technology, 226, 1205–1212.
25 Brouns, F., Hemery, Y., Price, R., and Mateo Anson, N. (2012). Wheat aleurone: Separation, composition, health aspects, and potential food use. Critical Reviews in Food Science and Nutrition, 52, 553–568.
26 Bruce, S.J., Guy, P.A., Rezzi, S., and Ross, A.B. (2010). Quantitative measurement of betaine and free choline in plasma, cereals and cereal products by isotope dilution LC‐MS/MS. Journal of Agricultural and Food Chemistry, 58, 2055–2061.
27 Buri, R.C., von Reding, W., and Gavin, M.H. (2004). Description and characterization of wheat aleurone. Cereal Foods World, 49, 274+.
28 Chandra Lohani, U., Prakash Pandey, J., and Chandra Shahi, N. (2012). Effect of degree of polishing on milling characteristics and proximate compositions of barnyard millet (Echinochloa frumentacea). Food and Bioprocess Technology, 5, 1113–1119.
29 Cheli, F., Campagnoli, A., Ventura, V., Brera, C., Berdini, C., Palmaccio, E., and Dell’Orto, V. (2010). Effects of industrial processing on the distributions of deoxynivalenol, cadmium and lead in durum wheat milling fractions. LWT – Food Science and Technology, 43, 1050–1057.
30 Chen, Y.F., Dunford, N.T., and Goad, C. (2013a). Phytochemical composition of extracts from wheat grain fractions obtained by tangential abrasive dehulling. Lwt‐Food Science and Technology, 54, 353–359.
31 Chen, Z.W., Liu, F.R., Wang, L., Li, Y.F., Wang, R., and Chen, Z.X. (2014a). Tribocharging properties of wheat bran fragments in air‐solid pipe flow. Food Research International, 62, 262–271.
32 Chen, Z.W., Wang, L., Wang, R., Li, Y.F., and Chen, Z.X. (2014b). Triboelectric separation of aleurone cell‐cluster from wheat bran fragments in nonuniform electric field. Food Research International, 62, 111–120.
33 Chen, Z.W., Zha, B.P., Wang, L., Wang, R., Chen, Z.X., and Tian, Y.N. (2013b). Dissociation of aleurone cell cluster from wheat bran by centrifugal impact milling. Food Research International, 54, 63–71.
34 Delcour, J.A., Van Win, H., and Grobet, P.J. (1998). Distribution and structural variation of arabinoxylans in common wheat mill streams. Journal of Agricultural and Food Chemistry, 47, 271–275.
35 Dexter,