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Characteristics of Endosperm Starch of the Rice Mutant Lines Induced by Sodium Azide  

Shin, Young-Seop (National Institute of Crop Science, RDA)
Park, Chlul-Soo (National Institute of Crop Science, RDA)
Seo, Yong-Weon (Division of Biotechnology, Korea University)
Jeung, Ji-Ung (National Institute of Crop Science, RDA)
Publication Information
Korean Journal of Breeding Science / v.41, no.2, 2009 , pp. 84-91 More about this Journal
Abstract
Rice consumption per capta, in South Korea, has been decreased dramatically, owing to the changes of living patterns. Because of not only the major energy source of Korean people but also major income source of Korean farmers, diversifying end-use-quality of rice has been demanded. To the context, 'Suweon 472', a high yielding and early mature japonica line and released as 'Namilbyeo' to framers in 2002, was treated with a chemical mutagen, Sodium Azide to find endosperm mutant types. A total of nine endosperm mutat lines, including five waxy, one dull, two floury, and one white core type, were identified from the 3,542 mutatagen treated lines. Amylose contents, iodine reaction, disintegration in alkali solution, gelatinization in urea solution and amylogram properties of those nine endosperm mutant lines were evaluated to address the possibility as new genetic materials for diversifying rice quality of Korean japonica cultivars. All embryo mutants were clearly differentiated from their wild type, 'Suweon 472', in terms of physic-chemical properties evaluated. The endosperm mutant lines would be very useful in expanding untiliztation of rice through opening new rice markets of processed foods from Korean japonica rice.
Keywords
Rice; Sodium Azide; Mutation; Endosperm;
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