IAPAN - Physical and chemical characterization of masa and tortillas from parental lines, crosses, and one hybrid

Publications in year 2017

Vol. 31, Issue 4

Physical and chemical characterization of masa and tortillas from parental lines, crosses, and one hybrid

Year :	2017
DOI :	10.1515/intag-2016-0030
Volumen :	31
Issue :	1
Pages :	129 - 138

PDF

Authors:

C. Valderrama-Bravo^1,2,3, A. Domínguez-Pacheco³, C. Hernández-Aguilar³, R. Zepeda-Bautista³, A. del Real-López⁴, M. Pahua-Ramos⁵, J. Arellano-Vázquez⁶, E. Moreno-Martínez⁷

¹Department of Engineering and Technology LEM-I (Laboratory Experimental Multidisciplinary-Food Engineering), Faculty of Studies Cuautitlan Superiors, UNAM, Campus 1, First of May, Infonavit Centro, Cuautitlán Izcalli, State of Mexico C.P. 54725, Mexico
²Department of Mathematics, Faculty of Studies Cuautitlan Superiors, UNAM, Campus 4, Km. 2.5 Highway Cuautitlán-Teoloyucan San Sebastián Xhala, Cuautitlán Izcalli, State of Mexico, C. P. 54725, Mexico
³National Politecnic Institute, Postgraduate and Research Section, ESIME, Professional Unit ‘Adolfo López Mateos’, Col. Lindavista, Mexico City, C.P. 07738, Mexico
⁴Department of Materials Engineering CFATA, UNAM, Campus Juriquilla, Querétaro, Mexico
⁵Department of Chemical Science, Faculty of Studies Cuautitlan Superiors, UNAM, Campus 1, First of May, Infonavit Centro, Cuautitlán Izcalli, State of Mexico, C.P. 54725, Mexico
⁶National Institute for Forestry, Agriculture and Livestock, Experimental Valley of Mexico, km. 13.5 Highway Los Reyes-Texcoco, Coatlinchan, Texcoco, State of Mexico, C. P. 56250, Mexico
⁷Research Unit in Grains and Seeds (UNIGRAS), Faculty of Studies Cuautitlan Superiors, UNAM. Dr. Jorge Jiménez Cantú s/n, Atlamica, Cuautitlán Izcalli, State of Mexico, C.P. 54729, Mexico

Abstract :

In maize plant breeding aimed at producing a hybrid, it is necessary to characterize the parents and hybrids by their agronomic aspects and grain quality so that the processing industry may offer consumers a quality product and also improve its efficiency. This study evaluated the viscoelastic parameters of masa and the chemical and texture properties of tortillas obtained from parent lines (M-54, M55, and CML-242), two single crosses (M54xM55 and M55xM54), and one hybrid (H-70). The morphology of the maize grains and tortillas was analyzed using scanning electron microscopy. The firmness of masa obtained from CML-242 and H-70 maize was higher than that from the other maize genotypes. M-54 tortillas showed the lowest crude fiber content. Otherwise, tortillas obtained from the M55xM54 hard grain had the lowest fat content and extensibility, while H-70 tortillas showed an intermediate breaking point and extensibility. M-54 and M54xM55 tortillas were softer due to their more swollen starch granules. In contrast, rigid tortillas were obtained from CML-242 and H-70. Grain hardness causes different morphology in starch and tortilla of maize genotypes. However, grain hardness did not influence the characteristics of texture in tortillas.

Language :

English