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International Journal of Food Properties Volume 19, 2016 - Issue 1
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Original Articles

Fat Mimicking Properties of Citric Acid Treated Sweet Potato Starch

A. Surendra BabuDepartment of Food Science and Nutrition, School of Professional Sciences, Periyar University, Tamil Nadu, India
,
R. ParimalavalliDepartment of Food Science and Nutrition, School of Professional Sciences, Periyar University, Tamil Nadu, IndiaCorrespondence[email protected]
,
K. JagannadhamDepartment of Food Science and Nutrition, School of Professional Sciences, Periyar University, Tamil Nadu, India
,
J. Sudhakara RaoDepartment of Food Science and Nutrition, School of Professional Sciences, Periyar University, Tamil Nadu, India
&
R. Shalini GaurDepartment of Food Science and Post Harvest Technology, Indian Agriculture Research Institute, New Delhi, India
Pages 139-153 | Received 25 Sep 2014, Accepted 13 Feb 2015, Published online: 16 Oct 2015

REFERENCES

  • Calorie Control Council. Fat replacers: Food Ingredients for Healthy Eating. http://www. caloriecontrol.org/fatreprint.html ( accessed May 22, 2013).
  • Lipp, M.; Anklam, E. Review of Cocoa Butter and Alternative Fats for Use in Chocolate—Part A. Compositional Data. Food Chemistry 1998, 62, 73–97.
  • Peters, J.C.; Lawson, K.D. Middleton S.J.; Triebwasser K.C. Assessment of the Nutritional Effects of Olestra, A Nonabsorbed Fat Replacement: Introduction and Overview. Journal of Nutrition 1997, 127, 1539S–1546S.
  • Duflot, P. Starches and Sugars Glucose Polymers As Sugar/Fat Substitutes. Trends in Food Science & Technology 1996, 7, 206.
  • Jonson, B.R. Whey Protein Concentrates in Low-Fat Applications; published by U.S. Dairy Export Council: Arlington, VA, 2002.
  • Nonaka, H.H. Plant Carbohydrate Derived Products As Fat Replacers and Calorie Reducers. Cereal Foods World 1997, 42, 377–378.
  • Lim, J.; Inglett, G.E.; Lee, S. Response to Consumer Demand for Reduced-Fat Foods: Multi-Functional Fat Replacers. Japan Journal of Food Engineering 2010, 11, 147–152.
  • Grossklaus, R. Fat Replacers—Requirements from a Nutritional Physiological Point of View, European Journal of Lipid Science and Technology 1996, 98, 136–141.
  • Akoh, C.C. “Fat Replacers.” Food Technology 1998, 52, 47–53.
  • Wang, L.; Wang, Y.J. Structures and Physicochemical Properties of Acid-Thinned Corn, Potato, and Rice Starches. Starch-Stärke 2001, 53,570–576.
  • Whistler, R.; Daniel, R. Function of Polysaccharides; Dekker: New York, NY, 1990; 256 pp.
  • Amaya-Llano, S.L.; Martínez-Alegría, A.L.; Zazueta-Morales, J.J.; Martínez-Bustos, F. Acid Thinned Jicama and Maize Starches As Fat Substitute in Stirred Yogurt. LWT–Food Science and Technology 2008, 41, 1274–1281.
  • Thys, R.C.S.; Aires, A.G. The Effect of Acid Hydrolysis on the Technological Functional Properties of Pinhão (Araucaria brasiliensis) Starch, Ciênncia e Tecnologia de Alimentos, Campinas 2013, 33, 89–94.
  • Ma, Y.; Cai, C.; Wang, J.; Sun, D. Enzymatic Hydrolysis of Corn Starch for Producing Fat Mimetics. Journal of Food Engineering 2006, 73, 297–303.
  • Vanderveen, J.E.; Glinsmann, W.H. Fat Substitutes: A Regulatory Perspective. Annual Review in Nutrition 1992, 12, 473–487.
  • Daniel, J.R.; Whistler, R.L. Fatty Sensory Qualities of Polysaccharides. Cereal Foods World 1990, 35, 825.
  • Food and Drug Administration. Toxicological Principles for the Safety Assessment of Direct Food Additives and Color Additives Used in Food; Bureau of Foods: Washington, DC, 1982.
  • National Starch and Chemical Corporation. Converted Starches for Use As a Fat Or Oil Replacement in Food Stuffs. US Patent no. US4510166 A, 1985.
  • Radley, J.A. Industrial Uses of Starch and Its Derivates; Applied Science Publishers Ltd.: London, 1976; 58 pp.
  • Clark, D. Fat Replacers and Fat Substitutes. Food Technology 1994, 48, 86–87.
  • Sweet Potato Starch Production- TM22-3e, International Starch Institute 1999-2006, Science Park Aarhus, Denmark. Www.Starch.Dk
  • Sathe, S.K.; Salunkhe, D.K.; Functional Properties of the Great Northern Bean Protein: Emulsion, Foaming, Viscosity, and Gelation Properties. Journal of Food Science 1999, 46, 71–76.
  • Woolfe, J.A. Sweet Potato—An Untapped Food Resource; Published in collaboration with the International Potato Centre, Peru. Cambridge University Press: Cambridge, UK, 1992; 643 pp.
  • Wickramasinghe, H.A.M.; Takigawa, S.; Matsura-Endo, G.; Yamauchi, H.; Noda, T. Comparative Analysis of Starch Properties of Different Root and Tuber Crops Sri Lanka. Food Chemistry 2009, 112, 98–103.
  • Zambrano, F.; Camargo, C.R.O. Otimizacao das condicoesdehidroliseacida do amido de mandioca para obtencao de substitutodegordura (English translation: Optimization of the conditions for the acid hydrolysis of cassava starch to obtain a fat replacer.). Brazilian Journal of Food Technology 2002, 4, 147–154.
  • Miller, G.L. Use of Dinitrosalicylic Acid Reagent for Determination of Reducing Sugar. Analytical Chemistry 1959, 31, 426–428.
  • Williams, V.R.; Wu, W.; Tsai, H.Y.; Bates, H.G. Varietal Differences in Amylose Content of Rice Starch. Journal of Agriculture and Food Chemistry 1958, 6, 47–48.
  • Adebayo, A.O.; Lateef, S.O.; Elizabeth, A.B. Physicochemical, Rheological, and Consumer Acceptability of Cassava Starch Salad Cream. Journal of American Science, 2010, 6, 65–72.
  • Noda, T.; Takigawa, S.; Matsuura-Endo, C.; Saito, K.; Takata, K.; Tabiki, T.; Wickramasinghe, H.A.M.; Yamauchi, H. The Physicochemical Properties of Partially Digested Starch from Sprouted Wheat Grain. Carbohydrate Polymers 2004, 56, 271–277.
  • Niba, L.L.; Bokanga, M.M.; Jackson, F.L.; Schlimme, D.S.; Li, B.W. Physicochemical Properties and Starch Granular Characteristics of Flour from Various Manihot Esculenta (Cassava) Genotypes. Journal Food Science 2001, 67, 1701–1705.
  • Neto, V.Q.; Narain, N.; Silvia, J.B.; Bora, P.S. Functional Properties of Raw and Heat-Processed Cashew Nut (Anacardiumoccidentale L.) Kernel Protein Isolate. Nahrung 2001, 45, 258–262.
  • Artiaga, R.; Nayab, S.; Garcia, A.; Barbadilloa, F.; Garcia, L. Subtracting the Water Effect from DSC Curves by Using Simultaneous TGA Data. Thermochimica Acta 2005, 428, 137–139.
  • Nara, S.; Komiya, T. Studies on the Relationship Between Water-Saturated State and Crystallinity by the Diffraction Method for Moistened Potato Starch. Starch/Starke 1983, 35, 407–410.
  • Dutta, H.; Paul, S.K.; Kalita, D.; Mahanta, C.L.; Effect of Acid Concentration and Treatment Time on Acid–Alcohol Modified Jackfruit Seed Starch Properties. Food Chemistry, 2011, 128, 284–291.
  • Babu, A.S.; Parimalavalli, R.; Jagannadham, K.; Rao, J.S. Chemical and Structural Properties of Sweet Potato Starch Treated with Organic and Inorganic Acid. Journal of Food Science and Technology 2014. DOI:10.1007/s13197-014-1650-x.
  • Tsakama, M.; Mwangwela, A.M.; Manani, T.A.; Mahungu, N.M. Effect of Heat Moisture Treatment on Physicochemical and Pasting Properties of Starch Extracted from Eleven Sweet Potato Varieties. International Research Journal of Agriculture Science and Soil Science 2011, 1, 254–260.
  • Betancourt, A.D.; Chel, G. Acid Hydrolysis and Characterization of Canavalia Ensiformis Starch. Journal of Agricultural and Food Chemistry 1997, 45, 4237–4241.
  • Yackel, W.C.; Cox, C. Application of Starch-Based Fat Replacers. Food Technology 1992, 46, 146–148.
  • Omojola, M.O.; Manu, N.; Thomas, S.A. Effect of Acid Hydrolysis on the Physicochemical Properties of Cola Starch. African Journal of Pure and Applied Chemistry 2011, 5, 307–315.
  • Flipse, E.; Keetels, C.J.A.M.; Jacobson, E.; Visser, R.G.F. The Dosage Effect of the Wildtype GBSS Allele Is Linear for GBSS Activity But Not for Amylose Content: Absence of Amylose Has a Distinct Influence on the Physico-Chemical Properties of Starch. Theoretical and Applied Genetics 1996, 92, 121–127.
  • van Soest, J.J.G.; Bezemer, R.C.; de Wit, D.; Vliegenthart, J.F.G. Influence of Glycerol on the Melting of Potato Starch. Industrial Crops and Products 1996, 5, 1–9.
  • Hoseney, R.C. Principles of Cereal Science and Technology. American Association of Cereal Chemists, Inc.: St. Paul, MN, 1994; 52–54 pp.
  • Zhang, Z.T. Nutritional Quality and Starch Physicochemical Properties in Sweet Potato, Ph.D. thesis. The University of Hong Kong, Hong Kong 2001.
  • Han, J.-A.; Lim, S.-T. Effect of γ-Irradiation on Pasting and Emulsification Properties of Octenylsuccinylated Rice Starches. Carbohydrate Polymers 2012, 90, 1480–1485.
  • Sodhi, N.S.; Chang, Y.-H.; Midha, S.; Kohyama, K. Molecular Structure and Physicochemical Properties of Acid-Methanol-Treated Chickpea Starch. International Journal of Food Properties, 2013, 16, 125–138.
  • Park, E.Y.; Baik, B.; Lim, S. Influences of Temperature-Cycled Storage on Retrogradation and Invitro Digestibility of Waxy Maize Starch Gel. Journal of Cereal Science 2009, 50, 43–48.
  • Sariçoban, C.; Yilmaz, M.T.; Karakaya, M. Response Surface Methodology Study on the Optimisation of Effects of Fat, Wheat Bran, and Salt on Chemical, Textural, and Sensory Properties of Patties. Meat Science 2009, 83, 610–619.
  • Huang, M.; Kennedy, J.F.; Li, B.; Xu, X.; Xie, B.J. Characters of Rice Starch Gel Modified by Gellan, Carrageenan, and Glucomannan: A Texture Profile Analysis Study. Carbohydrate Polymers 2007, 69, 411–418.
  • Yu, S.; Ying, M.; Da-Wen, S. Impact of Amylose Content on Starch Retrogradation and Texture of Cooked Milled Rice During Storage. Journal of Cereal Science 2009, 50, 139–144.
  • Bourne, M.C. Food Texture and Viscosity Concept and Measurement, 2nd Ed; Food Science and Technology International Series. Academic Press: San Diego, CA, 2002, 427 pp.
  • Yamin, F.F.; Lee, M.; Pollak, L.M.; White, P.J. Thermal Properties of Starch in Cornvariants Isolated after Chemical Mutagenesis of Inbred Line B73. Cereal Chemistry 1999, 76, 175–181.
  • Sandhu, K.S.; Singh, N.; Lim, S.T. A Comparison of Native and Acid Thinned Normal and Waxy Corn Starches: Physicochemical, Thermal, Morphological, and Pasting Properties. LWT: Food Science and Technology 2007, 40, 1527–1536.
  • Singh, H.; Sodhi, N.S.; Singh, N. Structure and Functional Properties of Acid Thinned Sorghum Starch. International Journal of Food Properties 2009, 12, 713–725.
  • Ikegwu, O.J.; Okechukwu, P.E. Physicochemical and Pasting Characteristics of Flours and Starch from Achi Brachystegia Eurtcoma Seed. Journal of Food Technology 2010, 8, 58–66.
  • Chung, H.-J.; Jeong, H.-Y.; Lim, S.-T. Effects of Acid Hydrolysis and Defatting on Crystallinity and Pasting Properties of Freeze-Thawed High Amylose Corn Starch. Carbohydrate Polymers 2003, 54, 449–455.
  • Han, X.Z.; Campanella, O.H.; Mix, N.C.; Hamaker, B.R. Consequence of Starch Damage on Rheological Properties of Maize Starch Pastes. Cereal Chemistry 2002, 79, 897–901.
  • Lin, J.H.; Lee, S.Y.; Chang, Y.H. Effect of Acid—Alcohol Treatment on the Molecular Structure and Physicochemical Properties of Maize and Potato Starches. Carbohydrate Polymers 2003, 53, 475–482.
  • Singh, S.; Raina, C.S.; Bawa, A.S.; Saxena, D.C. Effect of Heat-Moisture Treatment and Acid Modification on Rheological, Textural, and Differential Scanning Calorimetry Characteristics of Sweetpotato Starch. Journal of Food Science 2005, 70, E373–E378.
  • Hoover, R.A.; Vasanthan, T. Effect of Heat Moisture Treatment on Structure and Physicochemical Properties of Cereal, Legume, and Tuber Starches. Carbohydrate Research 1994, 252, 33–53.
  • Bhandari, P.N.; Singhal, R.S.; Kale, D.D. Effect of Succinylation on the Rheological Profile of Starch Pastes. Carbohydrate Polymers 2002, 47, 365–371.
  • Yu, L.; Christie, G. Microstructure and Mechanical Properties of Orientated Thermoplastic Starches. Journal of Materials Science 2005, 40, 111–116.
  • Guerra-DellaValle, D.; Sánchez-Rivera, M.M.; Zamudio-Flores, P.B.; Méndez-Montealvo, G.; Bello-Pérez, L.A. Effect of Chemical Modification Type on Physicochemical and Rheological Characteristics of Banana Starch. Revista Mexicana de Ingeniería Química 2009, 8, 197–203.
  • Charm, S.E. The Nature and Role of Fluid Consistency in Food Engineering Applications. Advances in Food Research 1962, 11, 356–435.
  • Atichokudomchai, N.; Shobsngob, S.; Varavinit, S. Morphological Properties of Acid Modified Tapioca Starch. Starch/Stärke 2000, 52, 283–281.
  • Hoover, R. Acid-Treated Starches, Food Reviews International 2000, 16, 369–392.
  • Zhu, F.; Yang, X.; Cai, Y.; Bertoft, E.; Corke, H. Physicochemical Properties of Sweet Potato Starch, Starch/Starke 2011, 63, 249–259.
  • Ali, T.M.; Hasnain, A. Morphological, Physicochemical, and Pasting Properties of Modified White Sorghum (Sorghum Bicolor) Starch. International Journal of Food Properties 2014, 17, 523–535.

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