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International Journal of Food Properties Volume 20, 2017 - Issue 4
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Original Articles

Physicochemical and structural properties of starches isolated from corn cultivars grown in Indian temperate climate

Shabir Ahmad MirDepartment of Food Science and Technology, Pondicherry University, Puducherry, IndiaCorrespondence[email protected]
,
Sowriappan John Don BoscoDepartment of Food Science and Technology, Pondicherry University, Puducherry, India
,
Mudasir BashirDepartment of Food Science and Technology, Pondicherry University, Puducherry, India
,
Manzoor Ahmad ShahDepartment of Food Science and Technology, Pondicherry University, Puducherry, India
&
Mohammad Maqbool MirDivision of Fruit Science, Sher-e-Kashmir University of Agricultural Sciences and Technology of Kashmir, Jammu and Kashmir, India
Pages 821-832 | Received 07 Dec 2015, Accepted 26 Apr 2016, Published online: 02 Oct 2016

References

  • Jobling, S. Improving Starch for Food and Industrial Applications. Plant Biology 2004, 7, 210–218.
  • Yousif, E.I.; Gadallah, M.G.E.; Sorour, A.M. Physico-Chemical and Rheological Properties of Modified Corn Starches and Its Effect on Noodle Quality. Annals of Agricultural Science 2012, 57, 19–27.
  • Lin, J.H.; Singh, H.; Chen, F.B.; Chang, Y.H. Changes in Swelling and Rheological Properties of Corn Starches After Acid-Methanol Degradation. Food Hydrocolloids 2015, 45, 361–368.
  • Arocas, A.; Sanz, T.; Fiszman, S.M. Influence of Corn Starch Type in the Rheological Properties of a White Sauce After Heating and Freezing. Food Hydrocolloids 2009, 23, 901–907.
  • Lenihan, E.; Pollak, L.; White, P. Thermal Properties of Starch from Exotic-by-Adapted Corn (Zea Mays L.) Lines Grown in Four Environments. Cereal Chemistry 2005, 82, 683–689.
  • Sandhu, K.S.; Singh, N. Some Properties of Corn Starches II: Physicochemical, Gelatinization, Retrogradation, Pasting and Gel Textural Properties. Food Chemistry 2007, 101, 1499–1507.
  • Uarrota, V.G.; Amante, E.R.; Demiate, I.M.; Vieira, I.D.; Maraschin, M. Physicochemical, Thermal, and Pasting Properties of Flours and Starches of Eight Brazilian Maize Landraces (Zea Mays L.). Food Hydrocolloids 2013, 30, 614–624.
  • Ali, A.; Wani, T.A.; Wani, I.A.; Masoodi, F.A. Comparative Study of the Physico-Chemical Properties of Rice and Corn Starches Grown in Indian Temperate Climate. Journal of the Saudi Society of Agricultural Sciences 2014. DOI:10.1016/j.jssas.2014.04.002
  • Beckles, D. M.; Thitisaksakul, M. How Environmental Stress Affects Starch Composition and Functionality in Cereal Endosperm. Starch/Stärke 2014, 66, 58–71.
  • Lu, D.; Cai, X.; Shi, Y.; Zhao, J.; Lu, W. Effects of Waterlogging After Pollination on the Physicochemical Properties of Starch from Waxy Maize. Food Chemistry 2015, 179, 232–238.
  • Sui, Z.; Yao, T.; Zhao, Y.; Ye, X.; Kong, X.; Ai, L. Effects of Heat–Moisture Treatment Reaction Conditions on the Physicochemical and Structural Properties of Maize Starch: Moisture and Length of Heating. Food Chemistry 2015, 173, 1125–1132.
  • Li, X.; Wang, C.; Lu, F.; Zhang, L.; Yang, Q.; Mu, J.; Li, X. Physicochemical Properties of Corn Starch Isolated by Acid Liquid and L-Cysteine. Food Hydrocolloids 2015, 44, 353–359.
  • Mir, S.A.; Bosco, S.J.D. Cultivar Difference in Physicochemical Properties of Starches and Flours from Temperate Rice of Indian Himalayas. Food Chemistry 2014, 157, 448–456.
  • Sun, Q.; Zhu, X.; Si, F.; Xiong, L. Effect of Acid Hydrolysis Combined with Heat Moisture Treatment on Structure and Physicochemical Properties of Corn Starch. Journal of Food Science and Technology 2015, 52, 375–382.
  • Nadiha, M.Z.N.; Fazilah, A.; Bhat, R.; Karim, A.A. Comparative Susceptibilities of Sago, Potato and Corn Starches to Alkali Treatment. Food Chemistry 2010, 121, 1053–1059.
  • Jiranuntakul, W.; Puttanlek, C.; Rungsardthong, V.; Puncha-arnon, S.; Uttapap, D. Microstructural and Physicochemical Properties of Heat-Moisture Treated Waxy and Normal Starches. Journal of Food Engineering 2011, 104, 246–258.
  • AACC. Approved Methods of the AACC, 8th Ed; American Association of Cereal Chemists: St Paul, MN, 2000.
  • Williams, P.C.; Kuzina, F.D.; Hlynka, I. A Rapid Colorimeteric Procedure for Estimating the Amylose Content of Starches and Flours. Cereal Chemistry 1970, 47, 411–420.
  • Wang, L.; Xie, B.; Shi, J.; Xue, S.; Deng, Q.; Wei, Y.; Tian, B. Physicochemical Properties and Structure of Starches from Chinese Rice Cultivars. Food Hydrocolloids 2010, 24, 208–216.
  • Sandhu, K.S.; Singh, N.; Kaur, M. Characteristics of the Different Corn Types and Their Grains Fractions: Physicochemical, Thermal, Morphological, and Rheological Properties of Starch. Journal of Food Engineering 2004, 64, 119–127.
  • Martínez, M.M.; Calviño, A.; Rosell, C.M.; Gómez, M. Effect of Different Extrusion Treatments and Particle Size Distribution on the Physico-Chemical Properties of Rice Flour. Food Bioprocess Technology 2014, 7, 2657–2665.
  • Pukkahuta, C.; Suwannawat, B.; Shobsngob, S.; Varavinit, S. Comparative Study of Pasting and Thermal Transition Characteristics of Osmotic Pressure and Heat-Moisture Treated Corn Starch. Carbohydrate Polymers 2008, 72, 527–536.
  • Vignaux, N.; Doehlert, D.C.; Elias, E.M.; McMullen, M.S.; Grant, L.; Kianian, S.F. Quality of Spaghetti Made from Full and Partial Waxy Durum Wheat. Cereal Chemistry 2005, 82, 93–100.
  • Adebooye, O.C.; Singh, V. Physico-Chemical Properties of the Flours and Starches of Two Cowpea Varieties (Vigna Unguiculata (L.) Walp). Innovative Food Science and Emerging Technologies 2008, 9, 92–100.
  • Tester, R.F.; Morrison, W.R. Swelling and Gelatinization of Cereal Starches. I. Effects of Amylopectin, Amylose and Lipids. Cereal Chemistry 1990, 67, 551–557.
  • Amaya-Llano, S.L.; Martínez-Bustos, F.; Alegría, A.L.M.; Zazueta-Morales, J.J. Comparative Studies on Some Physico-Chemical, Thermal, Morphological, and Pasting Properties of Acid-Thinned Jicama and Maize Starches. Food Bioprocess Technology 2011, 4, 48–60.
  • Suma. P.F.; Urooj, A. Isolation and Characterization of Starch from Pearl Millet (PennisetumTyphoidium) flours. International Journal of Food Properties 2015, 18, 2675–2687.
  • Lopez, O.V.; Zaritzky, N.E.; Garcia, M.A. Physicochemical Characterization of Chemically Modified Corn Starches Related to Rheological Behavior, Retrogradation and Film Forming Capacity. Journal of Food Engineering 2010, 100, 160–168.
  • Cael, J.J.; Koenig, J.L.; Blackwell, J. Infrared and Raman Spectroscopy of Carbohydrates, Part III: Raman Spectra of the Polymorphic Forms of Amylose. Carbohydrate Research 1973, 29, 123–134.
  • Yang, L.; Zhang, L.M. Chemical Structural and Chain Conformational Characterization of Some Bioactive Polysaccharides Isolated from Natural Sources. Carbohydrate Polymers 2009, 76, 349–361.
  • Liu, Y.L.; Himmelsbach, D.S.; Barton, F.E. Two-Dimensional Fourier Transform Raman Correlation Spectroscopy Determination of the Glycosidic Linkages in Amylose and Amylopectin. Applied Spectroscopy 2004, 58, 745–749.
  • Passauer, L.; Bender, H.; Fischer, S. Synthesis and Characterisation of Starch Phosphates. Carbohydrate Polymers 2010, 82, 809–814.
  • Fan, D.; Ma, W.; Wang, L.; Huang, J.; Zhao, J.; Zhang, H.; Chen, W. Determination of Structural Changes in Microwaved Rice Starch Using Fourier Transform Infrared and Raman Spectroscopy. Starch/Starke 2012, 64, 598–606.
  • Flores-Morales, A.; Jiménez-Estrada, M.; Mora-Escobedo, R. Determination of the Structural Changes by FT-IR, Raman, and CP/MAS 13C NMR Spectroscopy on Retrograded Starch of Maize Tortillas. Carbohydrate Polymers 2012, 87, 61–68.
  • Li, H.; Liu, G.; Zhang, G.; Hu, B.; Yu, D.; Chen, S. The Latest Progress in Study on Starch-Based Adhesives. Chemical Adhesion 2008, 5, 50–53.
  • Ketthaisong, D.; Suriharn, B.; Tangwongchai, R.; Lertrat, K. Changes in Physicochemical Properties of Waxy Corn Starches at Different Stages of Harvesting. Carbohydrate Polymers 2013, 98, 241–248.
  • Yu, S.; Ma, Y.; Menager, L.; Sun, D.W. Physicochemical Properties of Starch and Flour from Different Rice Cultivars. Food and Bioprocess Technology 2012, 5, 626–637.
  • Perera, C.; Hoover, R. Influence of Hydroxypropylation on Retrogradation Properties of Native, Defatted and Heat-Moisture Treated Potato Starches. Food Chemistry 1999, 64, 361–375.
  • Abegunde, O.K.; Mu, T.H.; Chen, J.W.; Deng, F.U. Physicochemical Characterization of Sweet Potato Starches Popularly Used in Chinese Starch Industry. Food Hydrocolloids 2013, 33, 169–177.
  • Jacobson, M.R.; Obanni, M.; BeMiller, J.N. Retrogradation of Starches from Different Botanical Sources. Cereal Chemistry 1997, 74, 511–518.
  • Sandhu, K.S.; Kaur, M.; Singh, N.; Lim, S.T. A Comparison of Native and Oxidized Normal and Waxy Corn Starches: Physicochemical, Thermal, Morphological and Pasting Properties. LWT–Food Science and Technology 2008, 41, 1000–1010.
  • Yamin, F.F.; Lee, M.; Pollak, L.M.; White, P.J. Thermal Properties of Starch in Corn Variants Isolated After Chemical Mutagenesis of Inbred Line B73 1. Cereal Chemistry 1999, 76, 175–181.

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