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Abstract
Rice (Oryza sativa L.) grain quality is affected by the environmental temperature
it experiences. To investigate the physiological molecular mechanisms of the effect
of high temperatures on rice grain, a non-waxy indica rice was grown under two temperature
conditions, (29/35 degrees C) and (22/28 degrees C), during the ripening stage in
two phytotrons. The activities and gene expression of key enzymes for the biosynthesis
of amylose and amylopectin were examined. The activity and expression levels of soluble
endosperm starch synthase I were higher at 29/35 degrees C than that at 22/28 degrees
C. In contrast, the activities and expression levels of the rice branching enzyme1,
the branching enzyme3 and the granule bound starch synthase of the endosperm were
lower at 29/35 degrees C than those at 22/28 degrees C. These results suggest that
the decreased activity of starch branching enzyme reduces the branching frequency
of the branches of amylopectin, which results in the increased amount of long chains
of amylopectin of endosperm in rice grain at high temperature.