Carbohydrates 2023/2024 PDF

Summary

These notes provide a basic overview of carbohydrates, covering their definitions, classification, and properties. The document features details including monosaccharides, oligosaccharides, and polysaccharides, and examples such as glucose and fructose.

Full Transcript

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CARBOHYDRATS
Definition of carbohydrates:-
They are biomolecules, found abundantly in living organisms.
Carbohydrates have a wide range of functions. They provide
energy; act as storage molecules of energy. Serve as cell
membrane components and mediate some forms of
communication between cells.

Carbohydrates are the most abundant macromolecules in
nature. They are the main source and storage of energy in the
body. They serve also as structural component of cell membrane.
The general molecular formula of carbohydrate is CnH2nOn or
(CH2O)n, where n > 3.

Chemically, they contain the elements Carbon, hydrogen and
oxygen. Thus they are Carbon compounds that contain large
quantities of Hydroxyl groups.

Carbohydrates in general are polyhydroxy aldehydes or ketones
or compounds which give these substances on hydrolysis.

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There are three major classes of carbohydrates

 Monosaccharaides (Greek, mono = one (.

 Oligosaccharides (Greek, oligo= few) 2-10 monosaccharide
units.

 Polysaccharides (Greek, Poly = many) >10 monosaccharide
units.

Simplest group of carbohydrates and often called simple sugars
since they cannot be further hydrolyzed.

Colorless, crystalline solid which are soluble in water and
insoluble in a non-polar solvent.

These are compound which possesses a free aldehyde or ketone
group.

The general formula is Cn(H2O)n or CnH2nOn

They are classified according to the number of carbon atoms
they contain and also on the basis of the functional group present.

The monosaccharaides thus with 3,4,5,6,7… carbons are called
trioses, tetroses, pentoses, hexoses, heptoses, etc., and also as
aldoses or ketoses depending upon whether they contain aldehyde
or ketone group. Examples: Glucose, Fructose, Erythrulose,
Ribulose.

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Examples of monosaccharaides:-
Glucose

It is a simple sugar having a molecular formula C6H12O6. In
simple terms, we can say that it is made up of six carbon atoms,
twelve hydrogen atoms and six oxygen atoms. Glucose is a widely
available monosaccharide and is also known as dextrose and
blood sugar.

Some properties of glucose
The main source of energy

Binds to other sugars to give disaccharides, oligo and poly

saccharides

It is aldo hexose, glucopyranose

It is called Dextrose

It is reducing sugar

It is called also grape sugar

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Monosaccharaides are named by:

Prefix of the Latin number of the carbon atoms forming the sugar +
the suffix -ose

Arabic number Latin sugar

3 Tri- Aldo Triose Keto Triose

4 Tetra- Aldo Tetrose Keto Tetrose
5 Pent- Aldo Pentose Keto Pentose
6 Hex- Aldo Hexose Keto Hexose
7 Hept- Aldo Heptose Keto Heptose
8 Oct- Aldo Octose Keto Octose

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Notice, you can find two forms of monosaccharaides having the
same number of carbon atoms(aldose and ketoses).

- The simplest monosaccharaides is trioses having carbons 3.

Two trioses are present; glyceraldehyde and dihydroxyacetone.

Notice, Both can be written( C3H6O3) or (CH2O)3

One is aldotriose and the other is ketotriose.

monosaccharaides having 6 carbons are glucose -and fructose.

Notice, Both can be written C6H12O6 or (CH2O)6

One is aldohexose and the other is ketohexose.

Notice, Many other aldohexoses and ketohexoses are

present.

:-

Oligosaccharides are compound sugars that yield 2 to 10
molecules of the same or different monosaccharaides on
hydrolysis.

The monosaccharide units are joined by glycosides linkage.

Based on the number of monosaccharide units, it is further
,classified as disaccharide, tri saccharide, tetra saccharide etc.

Oligosaccharides yielding 2 molecules of monosaccharaides on
hydrolysis is known as a disaccharide, and the ones yielding 3 or 4
monosaccharaides are known as tri saccharides and tetra
saccharides respectively and so on.

The general formula of disaccharides is Cn(H2O)n-1 and that of
tri saccharides is Cn(H2O)n-2 and so on.

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Examples: Disaccharides include sucrose, lactose, maltose, etc.

Tri saccharides are Raffinose, Rabinose.

Some of structure disaccharide:-

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Polysaccharides
They are also called as “glycan".

Polysaccharides contain more than 10 monosaccharide units and
can be hundreds of sugar units in length.

They yield more than 10 molecules of monosaccharaides on
hydrolysis.

Polysaccharides differ from each other in the identity of their
recurring monosaccharide units, in the length of their chains, in the
types of bond linking units and in the degree of branching.

They are primarily concerned with two important functions ie.
Structural functions and the storage of energy.

They are further classified depending on the type of molecules
produced as a result of hydrolysis.
They may be homopolysaccharidese, containing monosaccharaides of the
same type or heteropolysaccharides i.e., monosaccharaides of different types.

Examples of Homopolysaccharides are starch, glycogen,
cellulose, pectin.

Heteropolysaccharides are Hyaluronic acid, Chondroitin.

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-
Types:- There are three important polysaccharides

Starch

Glycogen

Cellulose

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This is the plant storage polysaccharide.

It is insoluble and forms starch granules inside many plant cells.

It is not a pure substance, but is a mixture of amylose and
amylopectin.

Amylose and amylopectin.

Amylose

Is simply poly-(1-4) glucose, so is a straight chain. In fact the chain
is floppy, and it tends to coil up into a helix.

Amylopectin

Is poly(1-4) glucose with about 4 (1-6) branches. This gives it a
more open molecular structure than amylose. Because it has more
ends, it can be broken more quickly than amylose by amylase
enzymes. Both amylose and amylopectin are broken down by the
enzyme amylase into maltose, though at different rates. The
enzyme can only break down the 1-4 bond not the 1-6 so starch is
broken down into glucose and a disaccharide.

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This is similar in structure to amylopectin. It is poly (1-4) glucose
with 9 (1-6) branches.

It is made by animals as their storage polysaccharide, and is
found mainly in muscle and liver.

Because it is so highly branched, it can be mobilised (broken
down to glucose for energy) very quickly.

It is broken down to glucose by the enzyme glycogen
phosphorylase.

This is only found in plants, where it is the main component of
cell walls.

It is poly (1-4) glucose, but with a different isomer of glucose.

Starch and glycogen contain a-glucose, in which the hydroxyl
group on carbon 1 sticks down from the ring, while cellulose
contains ß-glucose, in which the hydroxyl group on carbon 1 sticks
up.

This means that in a chain alternate glucose molecules are
inverted.

Properties of Carbohydrates:-
Physical Properties of Carbohydrates
1-Stereoisomerism: Compound shaving the same structural
formula but they differ in spatial configuration. Example: Glucose
has two isomers with respect to the penultimate carbon atom.
They are D-glucose and L-glucose.

2-Optical Activity: It is the rotation of plane-polarized light forming
(+) glucose and (-) glucose.

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3-Diastereo isomers: It the configurationally changes with regard to
C2, C3, or C4 in glucose. Example: Mannose, galactose.

4-Annomerism: It is the spatial configuration with respect to the
first carbon atom in aldoses and second carbon atom in ketoses.

Chemical Properties of Carbohydrates
1-Osazone formation: Osazone are carbohydrate derivatives when
sugars are reacted with an excess of phenyl hydrazine. eg.
Glucosazone.

2-Benedict’s test: Reducing sugars when heated in the presence
of an alkali gets converted to powerful reducing species known as
enediols. When Benedict’s reagent solution and reducing sugars
are heated together, the solution changes its color to orange-red/
brick red.

3-Oxidation: Monosaccharaides are reducing sugars if their
carbonyl groups oxidize to give carboxylic acids. In Benedict’s test,
D-glucose is oxidized to D-gluconic acid thus, glucose is
considered a reducing sugar.

4-Reduction to alcohols: The C=O groups in open-chain forms of
carbohydrates can be reduced to alcohols by sodium borohydride,
NaBH4, or catalytic hydrogenation (H2, Ni, EtOH/H2O). The
products are known as “alditols”.

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Living organisms use carbohydrates as accessible energy to fuel
cellular reactions. They are the most abundant dietary source of
energy (4kcal/gram) for all living beings

Carbohydrates along with being the chief energy source, in many
animals, are instant sources of energy. Glucose is broken down by
glycolysis / Kreb’s cycle to yield ATP.

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Serve as energy stores, fuels, and metabolic intermediates. It is
stored as glycogen in animals and starch in plants.

Stored carbohydrates act as an energy source instead of
proteins.

They form structural and protective components, like in the cell
wall of plants and microorganisms. Structural elements in the cell
walls of bacteria (peptidoglycan or murine ), plants (cellulose) and
animals (chitin).

Carbohydrates are intermediates in the biosynthesis of fats and
proteins.

Carbohydrates aid in the regulation of nerve tissue and is the
energy source for the brain.

Carbohydrates get associated with lipids and proteins to form
surface antigens, receptor molecules, vitamins and antibiotics.

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