期刊
PLANT AND CELL PHYSIOLOGY
卷 52, 期 6, 页码 1068-1082出版社
OXFORD UNIV PRESS
DOI: 10.1093/pcp/pcr058
关键词
Amyloplast; Chloroplast; Plastid division; Starch degradation; Sugary; Transitory starch
资金
- Bio-Oriented Technology Research Advanced Institution
- Ministry of Agriculture, Forestry and Fisheries of Japan [IPG-0023]
Debranching enzymes, which hydrolyze alpha-1 and 6-glucosidic linkages in alpha-polyglucans, play a dual role in the synthesis and degradation of starch in plants. A transposon-inserted rice mutant of isoamylase3 (isa3) contained an increased amount of starch in the leaf blade at the end of the night, indicating that ISA3 plays a role in the degradation of transitory starch during the night. An epitope-tagged ISA3 expressed in Escherichia coli exhibited hydrolytic activity on beta-limit dextrin and amylopectin. We investigated whether ISA3 plays a role in amyloplast development and starch metabolism in the developing endosperm. ISA3-green fluorescent protein (GFP) fusion protein expressed under the control of the rice ISA3 promoter was targeted to the amyloplast stroma in the endosperm. Overexpression of ISA3 in the sugary1 mutant, which is deficient in ISA1 activity, did not convert water-soluble phytoglycogen to starch granules, indicating that ISA1 and ISA3 are not functionally redundant. Both overexpression and loss of function of ISA3 in the endosperm generated pleomorphic amyloplasts and starch granules. Furthermore, chloroplasts in the leaf blade of isa3 seedlings were large and pleomorphic. These results suggest that ISA3 facilitates starch metabolism and affects morphological characteristics of plastids in rice.
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