BLBS102-c32 BLBS102-Simpson March 21, 2012 14:2 Trim: 276mm X 219mm Printer Name: Yet to Come
614 Part 5: Fruits, Vegetables, and CerealsTable 32.1.Industrial Uses of StarchStarch and Its Derivates Processing Industry ApplicationAmylose and amylopectin (polymeric
starch)Food Thickener, texturants, extenders, low-calorie
snacks
Paper Beater sizing, surface sizing, coating
Textile Wrap sizing, finishing, printing
Polymer Absorbents, adhesives, biodegradable plastics
Products of starch hydrolysis, such as
glucose, maltose, or dextrinsFood Sweeteners or stabilizing agentsFermentation Feedstock to produce ethanol, liquors, spirits,
beer, etc.
Pharmaceutical Feedstock to produce drugs and medicine
Chemical Feedstock to produce organic solvents or acidsSource: Adapted from Jansson et al. 1997, with modification.These molecules can thus be fractionated by utilizing differ-
ences in their molecular size as well as in their binding behavior.
Moreover, amylose is able to complex lipids, while amylopectin
can contain covalently bound phosphate, adding further com-
plexity to their structure. In nature, amylose normally accounts
between 20 and 30% of the total starch. However, the percent-
age of amylose depends on the species and the organ used for
starch storage. The proportion of amylose to amylopectin and
the size and structure of the starch grain give distinct propertiesto different extracted starches (properties important in food and
industrial purposes; Dennis and Blakeley 2000). Starch grain
size is also dependent on species and organ type. It is well estab-
lished that starch grains grow by adding layers, and growth rings
within the grain may represent areas of fast and slower growth
(Pilling and Smith 2003); however, very little is known about
how these highly ordered structures are formed in vivo. The in-
terested reader is referred to articles by Buleon et al. (1998) and
Kossmann and Lloyd (2000).Figure 32.1.Starch structure: Amylose (A) is classically regarded as an essentially linear polymer wherein the glucose units are linked
throughα-1-4-glucosidic bonds. In contrast, although amylopectin containsα-1-4-glucosidic bonds, it also consists of a high proportion of
α-1-6-glucosidic bonds (B).