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Associations of Starch Gel Hardness, Granule Size, Waxy Allelic Expression, Thermal Pasting, Milling Quality, and Kernel Texture of 12 Soft Wheat Cultivars

2000; Wiley; Volume: 77; Issue: 2 Linguagem: Inglês

10.1094/cchem.2000.77.2.163

1943-3638

C. S. Gaines, Maide Ö. Raeker, Michael Tilley, P. L. Finney, J. D. Wilson, Donald B. Bechtel, Richard J. Martin, Paul A. Seib, G. L. Lookhart, Tom Donelson,

Phytase and its Applications

ABSTRACT Starches were isolated from 12 soft wheat ( Triticum aestivum L.) cultivars and were characterized for waxy ( Wx ) allelic expression, thermal pasting characteristics, and starch granule size. Gels were produced from the thermally degraded starches and were evaluated using large deformation rheological measurements. Data were compared with cultivar kernel texture, milling characteristics, starch chemical analyses, and flour pasting characteristics. Larger flour yields were produced from cultivars that had larger starch granules. Flour yield also was correlated with lower amylose content and greater starch content. Harder starch gels were correlated with higher levels of amylose content and softer kernel texture. The cultivar Fillmore, which had a partial waxy mutation at the B locus, produced the highest peak pasting viscosity and the lowest gel hardness. Softer textured wheats had greater lipid‐complexed amylose and starch phosphorus contents and had less total starch content. Among these wheats of the soft market class, softer textured wheats had larger starch granules and harder textured wheats had smaller starch granules. In part, this may explain why soft wheats vary in texture. The smaller granules have larger surface area available for noncovalent bonding with the endosperm protein matrix and they also may pack more efficiently, producing harder endosperm.