Abstract
Physical traits, kernel structure and chemical composition of five yellow and five red kernel maize hybrids were the subjects of this study. The 1000-kernel weight, a physical indicator of grain quality, ranged from 325.76±7.47 g (ZP 555 red) to 375.63±4.18 g (ZP 606). The hard endosperm fraction content varied between 57.66±0.93% (ZP 4007) and 67.08±0.42% (ZP 366 red). Regarding chemical composition, starch was predominant constituent ranging from 66.80±0.18 (ZP 4007 red) to 72.96±0.37 (ZP 606). The highest protein content was detected in ZP 606 (10.72±0.11) and the lowest in ZP 7007 red hybrid (8.63±0.04%). Milling response was highly influenced by hard endosperm fraction content (0.81**), and starch content was strongly correlated to 1000-kernel weight (0.77**). Whole-grain maize flours produced from yellow and red kernels without removing the germ are naturally gluten-free and can be used as functional food ingredients. All yellow and red kernel maize hybrids investigated in this study showed good quality parameters regarding physical properties and variations in chemical composition which makes them suitable for different industrial uses, primarily for food and feed production.
Funder
Ministry of Education, Science and Technological Development of the Republic of Serbia
Publisher
Centre for Evaluation in Education and Science (CEON/CEES)
Reference21 articles.
1. Agricultural food products (1993): Determination of crude fiber. General method NF-V03-040 (status: certified standard ref . ISO 5498), Assn. Fr. De Normalisation, Paris;
2. AOAC (2000): Association of Official Analytical Chemists, Official Methods of Analysis, 17th international edition. Methods 923 .03, 925 .09, 930 .15, 955 .04, 960 .39, AOAC International, Gaithersburg, MD;
3. AOAC (1990): Association of Official Analytical Chemists, Official Methods of Analysis, ed. by Herlich K . AOAC, Arlington, VA. pp. 70-84;
4. Botelho FM, Corrêa PC, Martins MA, Botelho S de CC, Horta de Oliveira GH (2013): Effects of the mechanical damage on the water absorption process by corn kernel. Food Science and Technology, Campinas, 33(2): 282-288;
5. Chen C, Somavat P, Singh V, Gonzalez de Mejia E (2017): Chemical characterization of proanthocyanidins in purple, blue, and red maize coproducts from different milling processes and their anti-inflammatory properties. Industrial Crops & Coproducts, 109: 464-475;
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