AOAC International. 2000. Official Methods of Analysis of the AOAC International, 17th ed. Association of Official Analytical Chemists, Inc. Maryland, USA.
Błaszczak, W., J. Fornal, V. Kiseleva, V. Yuryev, A. Sergeev, and J. Sadowska. 2007. Effect of high pressure on thermal, structural and osmotic properties of waxy maize and Hylon VII starch blends. Carbohydrate polymers 68 (3):387-396.
Bujang, A. 2006. Effect of destructuring on the physicochemical and functional properties of Sago starch, Universiti Sains Malaysia.
Carvalho, C., C. Onwulata, and P. Tomasula. 2007. Rheological properties of starch and whey protein isolate gels. Food Science and Technology International 13 (3):207-216.
Delcour, J.A., Hoseney, R.C. 2010. Principles of Cereal Science and Technology, Third ed. AACC International, St. Paul, MN. USA.
Duta, D.E. and Culetu, A. 2015. Evaluation of rheological, physicochemical, thermal, mechanical and sensory properties of oat-based gluten free cookies. Journal of Food Engineering, 162, 1-8.
Foo, W.T., Liong, M.T. and Easa, A.M. 2013. Textural and strauctural breakdown properties of selected hydrocolloid gels. Food Research International, 52, 401-408.
Hongsprabhas, P. 2007. On the gelation of mungbean starch and its composites. Int. J. Food Sci. Technol., 42: 658-668
Islas-Rubio, A.R., Calderon de la Barca, A.M., Cabrera-Chavez, F., Cotagatelum, A.G. and Beta, T. 2014. Effect of semolina replacement with a raw: popped amaranth flour blend on cooking quality and texture of pasta. LWT-Food Scienc and Technology, 57, 217-222.
Kasemsuwan, T., T. Bailey, and J. Jane. 1998. Preparation of clear noodles with mixtures of tapioca and high-amylose starches. Carbohydrate polymers 36 (4):301-312.
Katina, K., Salmenkallio- Marttila, M., Partanen, R., Forssell, P., and Autio, K. 2006. Effects of sourdough and enzymes on staling of high fibre wheat bread. LWT-Food Sci. Technol., 39, 479-491.
Kuakpetoon, KPETOON, D. and Wang, Y.J. 2008. Internal structure and physicochemical properties of corn starches as revealed by chemical surface gelatinization. Carbohydrate pol., 342(15):2253-63.
Ki̇bar, E. A. A., I. Gönenç, and F. Us. 2010. Gelatinization of waxy, normal and high amylose corn starches. GIDA-Journal of Food 35 (4):237-244.
Krogars, K., J. Heinämäki, M. Karjalainen, J. Rantanen, P. Luukkonen, and J. Yliruusi. 2003. Development and characterization of aqueous amylose-rich maize starch dispersion for film formation. European journal of pharmaceutics and biopharmaceutics 56 (2):215-221.
Koliandris, A., Lee, A., Ferry, A. L., Hill, S., and Mitcheell, J. 2008. Relationship between structure of hydrocolloid gels and solutions and flavour release. Food Hydro., 22, 623-630.
Li, J.H., Vasanthan, T., Hoover, R. and Rossnagel, B.G. 2004. Starch from hull-less barley: IV. Morphological and structural changes in waxy, normal and high-amylose starch granules during heating. Food Research International, 37, 417-428.
Maningat, C. C., and P. A. Seib. 2010. Understanding the physicochemical and functional properties of wheat starch in various foods. Cereal Chemistry 87 (4):305-314.
Matveev, Y. I., J. Van Soest, C. Nieman, L. Wasserman, V. Protserov, M. Ezernitskaja, and V. Yuryev. 2001. The relationship between thermodynamic and structural properties of low and high amylose maize starches. Carbohydrate polymers 44 (2):151-160.
Ott, M., and E. E. Hester. 1965. Gel formation as related to concentration of amylose and degree of starch swelling. Cereal Chem 42:476-484.
Rendleman Jr, J. A. 2000. Hydrolytic action of α‐amylase on high‐amylose starch of low molecular mass. Biotechnology and applied biochemistry 31 (3):171-178.
Rodriguez- Sandoval, E., Sandoval, G., Cortes- Rodriguez, M. 2012. Effect of quinoa and potato flours on the thermomechanical and breadmaking properties of wheat flour. Braz. J. Chem. Eng., 29(3):503-510.
Sabanis, D., Lebesi, D., and Tzia, C. 2009. Effect of dietary fibre enrichment on selected properties of gluten-free bread. LWT-Food Science and Technology, 42, 1380-1389.
Sandhu, K. S., and N. Singh. 2007. Some properties of corn starches II: Physicochemical, gelatinization, retrogradation, pasting and gel textural properties. Food Chemistry 101 (4):1499-1507.
Sereewat, P., Suthipinittham, C., Sumathaluk, S., Puttanlek, C., Uttapap, D. and Rungsardthong, V. 2015. Cooking properties and sensory acceptability of spaghetti made from rice flour and defatted soy flour. LWT-Food Science and Technology, 60(2):1061-1067.
Shim, J and Mulvaney, LVANEY, S. 2001. Effect of heating temperature, pH, concentration and starch/whey protein ratio on the viscoelastic properties of corn starch/whey protein mixed gels. J. Sci. Food Agri., 81 (8): 706-717.
Sriburi P. and Hill S.E. 2000. Extrusion of cassava starch with either variations in ascorbic acid concentration or pH. International Journal of Food Science and Technology, 35(2): 141–154.
Sobolewska-Zielińska, Joanna, and T. Fortuna. 2010. Retrogradation of starches and maltodextrins of origin various. Acta Sci. Technol. Aliment 9 (1):71-81.
Tan, T.C., Foo, W.T., Lion, M.T. and Easa, A.M. 2015. Comparative assessment of textural properties and microstructure of composite gels prepared from gelatin or gellan with maize starch and/or egg white. International Journal of Food Science and Technology, 50, 592-604.
Teck, F. W. 2012. Comparative assessment of gelatin and gellan maize starch-egg white, Universiti sains Malaysia.
Van Hung, P., T. Maeda, and N. Morita. 2006. Waxy and high-amylose wheat starches and flours—Characteristics, functionality and application. Trends in Food Science & Technology 17 (8):448-456.
Zaidul, I., N. Absar, S. J. Kim, T. Suzuki, A. Karim, H. Yamauchi, and T. Noda. 2008. DSC study of mixtures of wheat flour and potato, sweet potato, cassava, and yam starches. Journal of Food Engineering 86 (1):68-73.
Zhang, G. and Hamaker, B.R. A. 2003. three component interaction among starch, protein, and free fatty acids revealed by pasting profiles. J. Agri. Food Chem., 51(9):2797-800.
)
Send comment about this article