Use of hydrolysis prior to the chemical and thermomechanical modification of rice starch: alternative to traditional modification treatments

Authors

DOI:

https://doi.org/10.18633/biotecnia.v23i1.1296

Keywords:

Modified starch, Native starch, Acetylation, Extrusion, Hydrolysis

Abstract

Rice starch isolated (NS), was subjected to chemical and thermomechanical modification with previous hydrolysis (MHS) and without previous hydrolysis (MS) to be evaluated on main starch properties as degree of substitution (DS), color, water absorption and solubility index (WAI, WSI), viscosity, texture, thermal properties (differential scanning calorimetry DSC) and structural properties (infrared-IR, Xray-Rx analysis, and relative crystallinity index-ICR). The modified starches were compared to native starch (NS). The DS obtained in both starches was within the range allowed by the FDA for its safety use as food ingredient (0.01-0.2). The modification showed an increase in WAI and WSI values, being WAI value higher in MS (4.80) and WSI value higher in MHS (32.06). The viscosity of retrogradation showed a significant decrease (P<0.05) in both starches (HMS 0.013 and MS 5.613), obtaining gels with greater stability, however, the hardness of starch gels decreased (60 %) while the adhesiveness decreased only in MS (66 %). The crystallinity index (ICR) of the modified starches increased with regard to the native starch indicating a depolymerization of the molecule due to the modification. The presence of the acetyl group in the starch molecule was observed in the signals between 1650 to 1744 cm-1 confirming the esterification. The starches showed a high potential for its application as edible coatings and as wall material for microencapsulation.

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Author Biographies

Nancy P. Grajeda-Nieto , Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua


M.C Nancy P. Grajeda Nieto is a graduate of Food Science and Technology Programme at the Autonommus University of Chihuahua

Mayra Márquez-Gómez, Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua

M.C Mayra Márquez Ģómez is a graduate of Food Science and Technology Programme at the Autonommus University of Chihuahua

Tomás Galicia-García, Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua

Dr. Galicia Garcia is a research and peofessor if Food Science and Technology area at Autonommus University of Chihuahua. Currently is part of SNI.

Iván Estrada-Moreno, Research Center of Advance Materials S.C. CIMAV-Chihuahua.

Dr. Estrada Moreno participates in the polymer laboratory at CIMAV. Currently part of the national system of researchers (SNI)

Monica E. Mendoza-Duarte, Research Center of Advance Materials S.C. CIMAV-Chihuahua.

M.C. Mendoza Duarte participes in the reology laboratory at CIMAV

Rubén Márquez-Meléndez, Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua

Dr. Márquez Meléndez is a research professor in the Food Science and Technology at Autonommus University of Chihuahua 

Martha G. Ruiz-Gutiérrez, Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua

Dra. Ruiz-Gutiérrez is a research professor in Food science and Technology at Autonommus University of Chihuahua. Currently part of SNI.

Armando Quintero-Ramos, Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua

Dr. Quintero is research professor in Food Science and Technology at Auronommus University of Chihuahua. Currently part of SNI.

Beatriz Portillo-Arroyo, Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua

M.C Portillo Arroyo is a research professor in Healthy Area in Autonommus University of Chihuahua.

Cesar Soto-Figueroa, Faculty of Chemical Science. Food Science and Technology Programme. Autonomous University of Chihuahua

Dr Soto Figueroa is a research peofessor in Cemistry area at Autonommus University of Chihuahua. Currently part of SNI.

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2021-02-19

How to Cite

Grajeda, N., Márquez, M., Galicia García, T., Estrada, I., Mendoza, M., Márquez, R., … Soto, C. (2021). Use of hydrolysis prior to the chemical and thermomechanical modification of rice starch: alternative to traditional modification treatments. Biotecnia, 23(1), 151–160. https://doi.org/10.18633/biotecnia.v23i1.1296

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