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Granule-bound starch synthase I. A major enzyme involved in the biogenesis of B-crystallites in starch granules

Starch defines a semicrystalline polymer made of two different polysaccharide fractions. The A- and B-type crystalline lattices define the distinct structures reported in cereal and tuber starches, respectively. Amylopectin, the major fraction of starch, is thought to be chiefly responsible for this...

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Bibliographic Details
Published in:European Journal of Biochemistry 2002-08, Vol.269 (15), p.3810-3820
Main Authors: Wattebled, Fabrice, Buléon, Alain, Bouchet, Brigitte, Ral, Jean-Philippe, Liénard, Luc, Delvallé, David, Binderup, Kim, Dauvillée, David, Ball, Steven, D'Hulst, Christophe
Format: Article
Language:English
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Summary:Starch defines a semicrystalline polymer made of two different polysaccharide fractions. The A- and B-type crystalline lattices define the distinct structures reported in cereal and tuber starches, respectively. Amylopectin, the major fraction of starch, is thought to be chiefly responsible for this semicrystalline organization while amylose is generally considered as an amorphous polymer with little or no impact on the overall crystalline organization. STA2 represents a Chlamydomonas reinhardtii gene required for both amylose biosynthesis and the presence of significant granule-bound starch synthase I (GBSSI) activity. We show that this locus encodes a 69 kDa starch synthase and report the organization of the corresponding STA2 locus. This enzyme displays a specific activity an order of magnitude higher than those reported for most vascular plants. This property enables us to report a detailed characterization of amylose synthesis both in vivo and in vitro. We show that GBSSI is capable of synthesizing a significant number of crystalline structures within starch. Quantifications of amount and type of crystals synthesized under these conditions show that GBSSI induces the formation of B-type crystals either in close association with pre-existing amorphous amylopectin or by crystallization of entirely de novo synthesized material.
ISSN:0014-2956
1432-1033
1432-1327
DOI:10.1046/j.1432-1033.2002.03072.x