Polysaccharide introduction, example, structure, starch, cellulose, chitin those structure and important functions and their presence in plants and animals, polysaccharide types based on functions and their composition , functions of polysaccharides , important images for relevant polysaccharides types, polysaccharide role in plants and animal cells. Starch - structure and functions, cellulose structure and functions, chitin - structure and functions
2. Polysaccharides - Introduction
Polysaccharides are complex biomacromolecules.
Polysaccharides or polycarbohydrates, are the most
abundant carbohydrate found in food.
They are long chain polymeric carbohydrates.
3. Polysaccharides - Structure
Polysaccharides are composed of monosaccharide units bound together
by glycosidic linkages.
They are either linear or branched in structure.
Polysaccharides may also be classified based on their function:
(i) Structural polysaccharides are usually present in the cell walls
and give shape and rigidity to the cells. Eg. Cellulose, hemicelluloses
(ii) Storage polysaccharides act as reserve food material. Eg. Starch,
glycogen
4. Polysaccharides - Structure
Polysaccharides may be sub-classified into two types based on
the composition of monosaccharide units present.
Homopolysaccharides are made up of a single type of
monosaccharide. Eg: starch, glycogen, cellulose, inulin.
Heteropolysaccharides are made up of more than one type
of monosaccharides. Eg: Hemicelluloses, arabinogalactan
5. Polysaccharide - Starch
Starch is a storage polysaccharide in plant cells.
It is a homopolymer of α-D-glucose units.
Starch has two main constituents.
(i) Amylose (15-20%) Linear polysaccharides
(ii) Amylopectin(80-85%) branched polysaccharides
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7. Polysaccharide - Cellulose
Cellulose is an example of a structural polysaccharide.
It is used in the cell walls of plants and other organisms, and
is said to be the most abundant organic molecule.
Cellulose is formed when β-glucose molecules are joined to
form a polymer.
It is a straight chain polymer.
Furthermore, due to the hydrogen bonds between molecules it
can form very rigid fibers.
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10. Polysaccharide - Chitin
Chitin is a structural polysaccharide found in the
exoskeleton of insects and crustaceans and in the cell
walls of fungi.
It consists of N-acetyl-D-glucosamine units joined by
β-1,4 glycosidic linkages.
Like cellulose it consists of parellel chains of molecules
held together by hydrogen bonds.
12. Polysaccharide - Functions
The three main functions of polysaccharides are:
(i) providing structural support,
(ii) storing energy, and
(iii) sending cellular communication signals.
The carbohydrate structure largely determines its
function.
13. Review questions
A1. An example of heteropolysaccharide is
a)Amylose b) Hemicellulose c)Cellulose d) Amylopectin
A2. The repeating unit in chitin
a)Glucose b)Glucosamine c)Galactose d) N-acetyl glucosamine
A3. Glucose residues in amylose are linked by
a)α 1-4 b)β 1-4 c) α 1-6 d)β 1-6
A4.Which of the following is an example of homopolysaccharide
a)Starch b)Glycogen c)Cellulose d) All of these
14. Review questions
B1.Define polysaccharide?
Ans: Polysaccharides are composed of monosaccharide units
bound together by glycosidic linkages. Eg:Starch, cellulose.
C1. Describe the structure of starch?
Ans: Starch is a homopolymer of α-D-glucose units.Starch has
two main constituents (i) Amylose (15-20%) Linear
polysaccharides, (ii) Amylopectin(80-85%) branched
polysaccharides