Journal
CEREAL CHEMISTRY
Volume 83, Issue 6, Pages 595-604Publisher
WILEY
DOI: 10.1094/CC-83-0595
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Chemical composition (moisture, total lipids, protein, and apparent amylose) and some physical features (1,000 kernel weight, hardness, and anatomical composition) were determined in 71 accessions representing races of maize from Latin America. Their microstructural characteristics (size and compaction of endosperm cell bodies, pericarp thickness, horny-floury endosperm ratio, and morphology and size of starch granules) were also evaluated using environmental scanning electron microscopy (ESEM). Compaction was the most important microstructural feature of the maize kernels, representing kernel hardness. Highly compact kernels tended to be hard, with high protein, pericarp, and hard-endosperm content and high pericarp thickness, but with low moisture, amylose content, and kernel weight and size. The opposite was observed in the least compact kernels. Highly compact kernels tended to have small, polygonal starch granules (< 10 mu m), while the least compact kernels contained large, spherical granules (> 10 mu m). These results suggest that microstructure is responsible for the physical features of maize kernels and that microstructure is related to chemical composition.
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