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Structural Features of Starch Granules I

2009; Elsevier BV; Linguagem: Inglês

10.1016/b978-0-12-746275-2.00005-7

Serge Pérez, Paul M. Baldwin, D.J. Gallant,

Polysaccharides Composition and Applications

The amylose and amylopectin molecules, the granule structure, and the natures and amounts of the lipid and protein molecules present in granules vary with the botanical source of the starch. Starch granules are mainly found in seeds, roots, and tubers, but are also found in stems, leaves, fruits, and even pollen. They occur in all shapes and sizes (spheres, ellipsoids, polygons, platelets, irregular tubules) and are long dimensioned. Differences in external granule morphology are generally sufficient to provide unambiguous characterization of the botanical source via optical microscopy. The starch granule is nature's chief way of storing energy over long periods in green plants. The granule is well suited to this role, being insoluble in water and densely packed, but still accessible to the plant's catabolic enzymes. Native starch granules have a crystallinity varying from 15% to 45%, thus, most native starch granules exhibit a Maltese cross when observed under polarized light. Most starch granules are made up of alternating amorphous and crystalline shells, which are between 100 and 400 nm thick. These structures are termed "growth rings." Birefringence remains unchanged on both polar and equatorial sections of elongated starch granules. Most starch polymers in the granule are in an amorphous state. Most cereal starches give the so called A-type pattern; some tuber starches (e.g. potato) and cereal starches rich in amylose yield the B-type pattern, while legume starches generally give a C-type pattern. The two major macromolecular components of starch are amylose and amylopectin.