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Whole Grains and Health


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a high‐fat diet in mice. Journal of Agricultural and Food Chemistry, 62, 10101–10109.

      126 Samson, M.F., Mabille, F., Cheret, R., Abecassis, J., and Morel, M.H. (2005). Mechanical and physicochemical characterization of vitreous and mealy durum wheat endosperm. Cereal Chemistry, 82, 81–87.

      127 Saulnier, L., Sado, P.‐E., Branlard, G., Charmet, G., and Guillon, F. (2007). Wheat arabinoxylans: Exploiting variation in amount and composition to develop enhanced varieties. Journal of Cereal Science, 46, 261–281.

      128 Shao, Y., Xu, F., Sun, X., Bao, J., and Beta, T. (2014). Identification and quantification of phenolic acids and anthocyanins as antioxidants in bran, embryo and endosperm of white, red and black rice kernels (Oryza sativa L.). Journal of Cereal Science, 59, 211–218.

      129 Shepherd, C.T., Vignaux, N., Peterson, J.M., Scott, M.P., and Johnson, L.A. (2008). Dry‐milling and fractionation of transgenic maize seed tissues with green fluorescent protein as a tissue marker. Cereal Chemistry, 85, 196–201.

      130 Shewry, P.R. (2009). Wheat. Journal of Experimental Botany, 60, 1537–1553.

      131 Shewry, P.R., and Halford, N.G. (2002). Cereal seed storage proteins: Structures, properties and role in grain utilization. Journal of Experimental Botany, 53, 947–958.

      132 Shewry, P.R., Piironen, V., Lampi, A.M., Edelmann, M., Kariluoto, S., Nurmi, T., Fernandez‐Orozco, R., Ravel, C., Charmet, G., Andersson, A.A.M., Aman, P., Boros, D., Gebruers, K., Dornez, E., Courtin, C.M., Delcour, J.A., Rakszegi, M., Bedo, Z., and Ward, J.L. (2010). The HEALTHGRAIN wheat diversity screen: effects of genotype and environment on phytochemicals and dietary fiber components. Journal of Agricultural and Food Chemistry, 58, 9291–9298.

      133 Sibakov, J., Abecassis, J., Barron, C., and Poutanen, K. (2014). Electrostatic separation combined with ultra‐fine grinding to produce β‐glucan enriched ingredients from oat bran. Innovative Food Science and Emerging Technologies.

      134 Sibakov, J., Myllymäki, O., Holopainen, U., Kaukovirta‐Norja, A., Hietaniemi, V., Pihlava, J.M., Poutanen, K., and Lehtinen, P. (2011). Lipid removal enhances separation of oat grain cell wall material from starch and protein. Journal of Cereal Science, 54, 104–109.

      135 Singh, V., and Eckhoff, S.R. (1996). Effect of soak time, soak temperature, and lactic acid ore germ recovery parameters. Cereal Chemistry, 73, 716–720.

      136 Singh, V., Moreau, R.A., Hicks, K.B., and Eckhoff, S.R. (2001). Effect of alternative milling techniques on the yield and composition of corn germ oil and corn fiber oil. Cereal Chemistry, 78, 46–49.

      137 Sjovall, O., Virtalaine, T., Lapvetelainen, A., and Kallio, H. (2000). Development of rancidity in wheat germ analyzed by headspace gas chromatography and sensory analysis. Journal of Agricultural and Food Chemistry, 48, 3522–3527.

      138 Srivastava, A.K., Sudha, M.L., Baskaran, V., and Leelavathi, K. (2007). Studies on heat stabilized wheat germ and its influence on rheological characteristics of dough. European Food Research and Technology, 224, 365–372.

      139 Stevenson, D.G., Eller, F.J., Jane, J.L., and Inglett, G.E. (2008). Structure and physicochemical properties of defatted and pin‐milled oat bran concentrate fractions separated by air‐classification. International Journal of Food Science and Technology, 43, 995–1003.

      140 Stone, B.A. (1985). Aleurone cell walls – Structure and nutritional significances. In New approaches to research on cereal carbohydrates (eds. R.D. Hill and L. Munck), pp. 349–354. Elsevier Science Publishers.

      141 Stone, B.A., and Minifie, J. (1988). Recovery of aleurone cells from wheat bran. University, L. T. US patent 4,746,073 US patent 4,746,073.

      142 Stringfellow, A.C., Wall, J.S., Donaldson, G.L., and Anderson, R.A. (1976). Protein and amino‐acid compositions of dry‐milled and air‐classified fractions of triticale grain. Cereal Chemistry, 53, 51–60.

      143 Sullivan, P., O’Flaherty, J., Brunton, N., Gee, V.L., Arendt, E., and Gallagher, E. (2010). Chemical composition and microstructure of milled barley fractions. European Food Research and Technology, 230, 579–595.

      144 Tabekhia, M.M., and Luh, B.S. (1979). Effect of milling on macro and micro minerals and phytate of rice. Deutsche Lebensmittel‐Rundschau, 75, 57–62.

      145 Tosi, P., Gritsch, C.S., He, J.B., and Shewry, P.R. (2011). Distribution of gluten proteins in bread wheat (Triticum aestivum) grain. Annals of Botany, 108, 23–35.

      146 van Buul, V.J., and Brouns, F. (2014). Health effects of wheat lectins: A review. Journal of Cereal Science, 59, 112–117.

      147 van der Kamp, J.W., Poutanen, K., Seal, C.J., and Richardson, D.P. (2014). The HEALTHGRAIN definition of ‘whole grain’.

      148 Vignaux, N., Fox, S.R., and Johnson, L.A. (2006). A 10‐g laboratory wet‐milling procedure for maize and comparison with larger scale laboratory procedures. Cereal Chemistry, 83, 482–490.

      149 Viraktamath, C.S., Raghavendra, G., and Desikachar, H.S.R. (1971). Use of rice milling machinery for commercial pearling of grain sorghum (jowar) and culinary uses for pearled sorghum products. Journal of Food Science and Technology (Mysore), 8, 11–13.

      150 Vose, J.R., and Youngs, C.G. (1978). Fractionation of barley and malted barley flours by air classification. Cereal Chemistry, 55, 280–286.

      151 Wang, L., Xue, Q., Newman, R.K., and Newman, C.W. (1993). Enrichment of tocopherols, tocotrienols, and oil in barley fractions by milling and pearling. Cereal Chemistry, 70, 499–501.

      152 Wang, M.W., Sapirstein, H.D., Machet, A.S., and Dexter, J.E. (2006). Composition and distribution of pentosans in millstreams of different hard spring wheats. Cereal Chemistry, 83, 161–168.

      153 Wang, R., Koutinas, A.A., and Campbell, G.M. (2007). Effect of pearling on dry processing of oats. Journal of Food Engineering, 82, 369–376.

      154 Wang, T., He, F.L., and Chen, G.B. (2014). Improving bioaccessibility and bioavailability of phenolic compounds in cereal grains through processing technologies: A concise review. Journal of Functional Foods, 7, 101–111.

      155 Watson, S.A. (1987). Structure and composition. In: Corn : Chemistry and Technology (eds. S.A. Watson and P.E. Ramstad), pp. 53–82. AACC.

      156 Wolever, T.M., Tosh, S.M., Gibbs, A.L., Brand‐Miller, J., Duncan, A.M., Hart, V., Lamarche, B., Thomson, B.A., Duss, R., and Wood, P.J. (2010). Physicochemical properties of oat β‐glucan influence its ability to reduce serum LDL cholesterol in humans: A randomized clinical trial. The American Journal of Clinical Nutrition, 92, 723–732.

      157 Wu, Y.V., and Doehlert, D.C. (2002). Enrichment of β ‐glucan in Oat Bran by Fine Grinding and Air Classification. LWT ‐ Food Science and Technology, 35, 30–33.

      158 Wu, Y.V., and Stringfellow, A.C. (1973). Protein concentrates from oat flours by air classification of normal and high‐protein varieties. Cereal Chemistry, 50, 489–496.

      159 Wu, Y.V., and Stringfellow, A.C. (1992). Air classification of flours from wheats with varying hardness‐proteins shifts. Cereal Chemistry, 69, 188–191.

      160 Wu, Y.V., Stringfellow, A.C., and Inglett, G.E. (1994). Protein‐ and beta‐glucan enriched fractions from high‐protein, high beta‐glucan barleys by sieving and air classification. Cereal Chemistry, 71, 220–223.

      161 Xiong, F., Yu, X.R., Zhou, L., Wang, Z., Wang, F., and Xiong, A.S. (2013). Structural development of aleurone and its function in common wheat. Molecular Biology Reports, 40, 6785–6792.

      162 Xu, B., Zhou, S.L., Miao, W.J., Gao, C., Cai, M.J. and Dong, Y. (2013). Study on the stabilization effect of continuous microwave on wheat germ. Journal of Food Engineering, 117, 1–7.

      163 Yesil‐Celiktas, O., Isleten, M., Karagul‐Yuceer, Y., Bedir, E., and Vardar‐Sukan, F. (2009). Influence of supercritical carbon dioxide and methanolic extracts of rosemary on oxidation and sensory properties of wheat germ oil. Journal of Food Quality, 32, 709–724.

      164 Youngs, V.L. (1974). Extraction of a high‐protein layer from oat groat bran and flour. Journal of Food Science, 39, 1045–1046.

      165 Zacchi,