THE EVENTS LEADING TO THE FORMATION OF GHOST REMNANTS FROM THE STARCHGRANULE SURFACE AND THE CONTRIBUTION OF THE GRANULE SURFACE TO THE GELATINIZATION ENDOTHERM
Nj. Atkin et al., THE EVENTS LEADING TO THE FORMATION OF GHOST REMNANTS FROM THE STARCHGRANULE SURFACE AND THE CONTRIBUTION OF THE GRANULE SURFACE TO THE GELATINIZATION ENDOTHERM, Carbohydrate polymers, 36(2-3), 1998, pp. 193-204
During the process of gelatinization, the external layers of starch gr
anules form granule envelopes which degrade into ghost remnants. These
envelopes contribute to the gelatinization endotherm of starch throug
h the controlled dispersion of internal starch polymer. Ghost remnants
are shown to be derived from the external layers of the granules for
a range of starches with different amylose/amylopectin ratios. The gho
st remnants are composed primarily of amylopectin and exhibit elastic/
plastic properties. The surface amylopectin is shown to be structurall
y distinct from internal amylopectin. During the early stages of granu
le gelatinization, high amylopectin starch granules swell by 200% in s
ize, where the outer layer of the granule forms an envelope surroundin
g the disrupted internal starch polymers. High amylose starches do not
swell, but do form envelopes at high temperatures ( greater than or e
qual to 90 degrees C). At a critical stress point the swollen envelope
ruptures becoming a ghost, releasing the majority of the internal sta
rch molecules, while a minority of the starch polymers remain trapped
by the collapsed ghost. During the final stages of gelatinization the
ruptured envelope degrades into ghost remnants. Manipulation of the st
arch granule surface, either genetically or chemically, would result i
n alteration of the gelatinization endotherm. (C) 1998 Elsevier Scienc
e Ltd. All rights reserved.