L12a Carbohydrates PDF

Summary

These lecture notes cover introductory topics on carbohydrates, including their classification, general functions, and a discussion of monosaccharides and polysaccharides.

Full Transcript

Carbohydrates

Mokrish Ajat
Dept. of Veterinary Preclinical Sciences
Faculty of Veterinary Medicine UPM
[email protected]

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 To be discussed
Introduction and general functions
Monosacchrides
- classification
- sugar derivatives
Polysaccharides
- carbohydrate analysis
- disaccharides
- structural polysaccharides
- storage polysaccharides
- glycosaminoglycans
Glycoproteins
- proteoglycans
- bacterial cell walls
- glycoprotein structure and function
- glycomics
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 Introduction

Carbohydrates or saccharides (Greek: sakcharon – sugar)
‘hydrated carbon’ – (CH2O)n where n³3.
Basic units – monosaccharides
Sources
Gluconeogenesis
Photosynthesis (light processed combination of CO2
and H2O)- plant and bacteria
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 General Functions
An important source of C for the synthesis of other
compounds and of chemical energy for immediate release
Source of energy for human, most animal and microorganism
Serves as temporary stores of glucose (glycogen, starch)
As structural and supportive elements in the cell walls of
bacteria, plants, in the connective tissues and cell oats of
animal organism (eg. chitin, cellulose)

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 General Functions
Components of cell membranes
Connective tissue eg. Glygosaminoglycans
Antigenicity i.e. tissue types
Anticoagulant eg. heparin
Monosaccharide- principle components of nucleic
acid (DNA and RNA)
Serve to lubricate skeletal joints, to provide adhesion
between cells.

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 Monosaccharides - classification
¢ Monosaccharide
¢ Classified based of carbonyl group and number of C atoms

¢ Unbranched, single bonded carbon chain

¢ One of the carbon atom is double-bonded to an oxygen atom
(carbonyl), each of the other carbon atoms has a hydroxyl group
¢ Carbonyl group, single unit polyhdroxy aldehyde (aldose) = glucose

¢ Carbonyl group, single unit ketone (ketose) - ribulose

¢ The most abundant – D-glucose (others, fructose and galactose

ALDOSE KETOSE

CHO CH2OH
CHOH C O
CH2OH CH2OH
Glyceraldehyde Dihydroxyacetone
(an aldotriose) (a ketotriose)
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 Monosaccharides are classified by the number of
carbon atoms they contain CnH2nOn.
Name Formula
triose C 3H 6 O 3
tetrose C 4H O
8 4
pentose C 5 H 10 O 5

hexose C 6 H 12 O 6

heptose C H O
7 14 7
octose C 8 H 16 O 8

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 Carbons Category Name Relevant examples

3 Triose Glyceraldehyde (aldotriose),
Dihydroxyacetone (ketotriose)
4 Tetrose D-Erythrose (aldotetrose),
Erythrulose (ketotetrose)
5 Pentose D- Arabinose, D-Xylose,
D-Ribose, 2-D-Deoxyribose
(aldopentose)
D-ribulose (ketopentose)
6 Hexose D-Glucose, D-Galactose,D-
Mannose (aldohexose),
D-Fructose (ketohexose)
7 Heptose D-Sedoheptulose

9 Nonose Neuraminic acid also called sialic
acid
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 Monosaccharides Metabolic role

Glyceraldehyde (aldose) Glu-3-P and Glu-1-P
Dihydroxyacetone (ketone) are intermediate in
glycolysis
D-erythrose Glu-4-P is
intermediate in Carb
Met
D-arabinose cell walls
D-ribose RNA
2-D-deoxyribose DNA

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 Monosaccharides role

D-glucose Major energy source
Sugar of blood
Sugar of grape

D-fructose Principle sugar of semen
Sugar of fetal blood
Sugar of fruits and honey

D-galactose Sugar of Milk

D-mannose Composition of
mucopolysaccharides

D-sedoheptulose Intermediate in calvin cycle

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 Biologically most common aldoses are boxed
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 Biologically most common ketoses are boxed
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 Cyclization reactions for hexoses

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 Sugar derivatives
D-gluconic acid
D-glucuronic acid
D-glucitol
Sorbitol
Ascorbic acid
Ribitol
Myo-Inositol
Xylitol
Β-D-2-deoxyribose
D-Glucosamine
D-Galactosamine

Please read from text book and expand this note
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 Vitamin C – A monosaccharide?

Vitamin C, vital for life is a necessary part of our diet because we
cannot synthesize it. (Most plants and animals except primates and
guinea pigs can make their own Vitamin C).
It is needed to maintain health of dentine, cartilage, connective
tissue and bone
Lack in diet may cause scurvy – impairment of collagen formation
Recommended daily allowance ~45mg for adults (60mg if pregnant,
80mg if lactating).
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 Polysaccharides – carbohydrate
analysis
Please read page 366, chapter 11,
Biochemistry 4th edition Voet

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 Glucose Assay

¢ The analytical procedure most often performed in the
clinical chemistry laboratory is the determination of
glucose in blood, urine, or other biological fluid
— this need stems from the high incidence of diabetes in the population

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 Glucose Assay Type 1

¢ One of the first widely used methods was based
on the fact that glucose reacts with 2-
methylaniline (o-toluidine) in the presence of
acetic acid to give an imine which has a blue-
green color with an absorption max in the
visible spectrum at 625 nm
— the intensity of the absorption at 625 nm is proportional to
the glucose concentration

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 ¢ Blood glucose test for diabetics
— Based on reaction of o-toluidine with glucose

H3C

CHO CH N
H OH H3C H OH
HO H HO H
H2N H OH
H OH
H OH H OH
CH2OH CH2OH

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 Glucose Assay Type 2
— the enzyme glucose oxidase is specific for b-D-glucose
— molecular oxygen, O2, used in this reaction is reduced to hydrogen peroxide
H2O2
— the concentration of H2O2 is determined experimentally, and is proportional
to the concentration of glucose in the sample
CH2OH
HO O
HO OH + O2 + H2O
OH
b-D-Glucopyranose

CO2H
glucose
oxidase H OH
HO H
H OH + H2O2

H OH Hydrogen
peroxide
CH2OH

D-gluconic acid
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 Glycosidic/glycoside bonds
Glycoside: When monosaccharides link
together, the linkage is called a glycosidic
linkage.
A monosaccharide hemiacetal can react with a
second molecule of an alcohol to form an acetal

O CH3OH O
OH H+ OCH3

A ‘glycoside’ bond
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 ¢ Glycosides are named by listing the name of the alkyl or
aryl group attached to oxygen followed by the name of
the carbohydrate with the ending -e replaced by -ide
— b-D-glucopyranoside
— a-D-ribofuranoside

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 Dissacharides
¢ In most disaccharides the chemical bond that joins the two
monosaccharide units – glycosidic bond that formed when the
hydroxy group on one of the sugars reacts with the anomeric carbon
on the second sugar.
¢ Glycosidic bond – readily hydrolyzed by acid but resist cleavage by
base
Abundant in nature:
¢ Sucrose (table sugar, cane sugar, saccharose, or beet sugar),
¢ lactose (milk sugar)
¢ maltose.
Others: trehalose, cellobiose, lactulose, kojibiose, nigerose,
isomaltose, sophorose, laminaribiose, gentiobiose, maltulose

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 Maltose
The major degradation product of starch, is
composed of 2 glucose monomers in an α-(1,4)
glycosidic bond.
From malt, the juice of sprouted barley and other
cereal grains.
a-1,4-glycoside bond

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 Lactose
is found exclusively in the milk of mammals and consists
of galactose and glucose in a b-(1®4) glycosidic bond.
The principle sugar present in milk
— about 5% - 8% in human milk, 4% - 5% in cow’s milk
b-1,4-glycoside
bond

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 Sucrose
Prevalent in sugar cane and sugar beets, is
composed of glucose and fructose through an
a-(1®2)b-glycosidic bond.
a-1,2-glycoside
bond

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 Polysaccharide
¢ Most of the carbohydrates found in nature
occur as polysaccharides of high molecular
weight
¢ Some serve as storage forms of
monosaccharides but some serve as structural
elements in cell walls and connective tissues
¢ The monomeric building blocks used to
generate polysaccharides can be varied but the
predominant monosaccharide found is D-
glucose.

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 Two types of polysaccharides

¢ Homopolysaccharides
— Contains only a single type of monomeric unit eg. starch (contains only D-
glucose), glycogen and cellulose
¢ Heteropolysaccharides
— Contains two or more different kinds of monomeric unit eg. hyaluronic acid of
connective tissue
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 Structural Polysaccharides
Cellulose
Chitin

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 β-1,4-glycoside bonds
Cellulose

Cellulose is the most abundant structural polysaccharide
Liner, unbranched homopolysaccharide of D-Glucose units joined by
b(1®4) glycosidic bonds
It has an average molecular weight of 400,000 corresponding to
approximately 2800 D-glucose units per molecule
Plant cell walls
Maintains shape
Withstands osmotic pressure changes
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 Chitin

Chitin (invertebrate exoskeleton)- b(1®4) linked N-
acetylglucosamine polymer
Therefore, like cellulose except N-acetyl group at C-2 in
residue.
Chitin: is an important structural polysaccharide of
invertebrates. Eg in exoskeletons of insects
Cell walls of fungi and algae are also a polymer of N-
acetylglucosamine with b(1®4) linkages (very strong)

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 Storage
Polysaccharides
Starch
Glycogen

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 Starch
Used for energy storage in plant
Insoluble in water
Abundant in tubers eg. potatoes and seed eg. corn
Contain 2 types of glucose polymer
a-amylose (15-20%)
Amylopectin (80-85%

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 α-amylose

Consists of long, unbranched chains of D-
glucose units connected by a(1®4)linkages
Such chains vary in molecular weight from a
few thousand to 500,000
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 Amylopectin

Also has a high molecular weight but is highly
branched
Chains consist of 24-30 units of D-glucose joined
by a(1®4) glycoside bonds and branches created
by a(1®6) glycoside bonds
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 Starch Digestion
Digestion of starch the main carbohydrate
source in mammalian diet, begins in mouth
Saliva contains an amylase which randomly
hydrolyze the a-1,4-glycoside bonds
Further hydrolysis of a- glucosidase
And by debranching enzyme

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 Glycogen
The main storage
polysaccharide of animal cells
analogue of starch and is
commonly referred to as
animal starch, having a similar
structure to amylopectin
Primary structure of glycogen
resembles that of amylopectin
but glycogen is more highly
branched with branch points
occurring every 8 to 14 glucose
residues

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 Glycogen
made primarily by the liver and the muscles,
Abundant in liver (up to 7% of the wet weight)
Muscles (1-2% of the muscle mass)
can also be made by glycogenesis within
the brain and stomach
the amount of glycogen stored in the body, especially
within the red blood cells, liver & muscles, mostly
depends on physical training, basal metabolic rate and
eating habits such as intermittent fasting.
Small amounts of glycogen are found in the kidneys
even smaller amounts in certain glial cells in
the brain and white blood cells.
The uterus also stores glycogen during pregnancy to
nourish the embryo.
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 It is a homopolymer of glucose in a a(1®4) linkage: it is
also highly branched, with a(1®6) branch linkages
occuring every 8-10 residues
Very compact structure results from the coiling of the
polymer chains. This compactness allows large
amounts of carbon energy to be stored in small volume
with little effect on cellular osmolarity
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 Glycogen Storage Disease

Caused by defects in
glycogen synthesis and
inability to breakdown
glycogen for usage
May caused by genetic
disorder or acquired

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 Heteropolysaccharides
Polysaccharides composed of two or
more types of monosaccharide units
The most abundant
heteropolysaccharides in the body
are the glycosaminoglycans (GAGs).
Many are heteropolysaccharide
linked to proteins and these are
known as proteoglycans

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 GAGs - Structure
Glycosaminoglycans are
long unbranched
polysaccharides containing
a repeating disaccharide
unit with negatively
charged groups
The disaccharide units
contain either of two
modified sugars:
N-
acetylgalactosamin
e (GalNAc) or N-
acetylglucosamine
(GlcNAc)
and a uronic acid
such as
glucuronate or
iduronate

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 GAGs – Location and function
usually found in extracellular space in
multicellular organisms – to produce a viscous
extracellular matrix that resists compression.
found in the vitreous humor of the eye and
synovial fluid of joints, and in connective tissue
like tendons, cartilage, etc, as well as skin.
hyaluronan as a component in the synovial fluid
lubricant in body joints,
heparin as an anticoagulant,
chondroitins, which can be found in connective
tissues, cartilage, and tendons.

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 GAGs
¢ hyaluronate,
¢ heparan sulfate/heparin,
¢ chondroitin sulfates,
¢ keratan sulfate

¢ dermatan sulfate

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 Hyaluronate

Hyaluronic acid or hyaluronate –is a copolymer of D-glucuronic acid
and N-acetyl-D-glucosamine (Figure)- found in joint fluids, the inside
of the eye and in the intracellular matrix of the human body.
Composed of 250 to 25,000 b(1 4) linked disaccharide units that
consist of glucuronic (COOH in 6 positions) and N-acetyl-D-
glucosamine polymer linked by b(1 3) bond
Act as shock absorber and lubricant
In solution hyaluronate occupies a volume 1000 times that in its dry
state
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 Heparin
naturally-occurring anticoagulant produced by
basophils and mast cells
widely used as an injectable anticoagulant
(parenterally)
parenterally because it is not absorbed from
the gut, due to its high negative charge and
large size
has the highest negative charge density of any
known biological molecule

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 It works by activating antithrombin III, which blocks thrombin from
clotting blood.
Heparin binds to the enzyme inhibitor antithrombin III (AT) causing
a conformational change that results in its activation
The activated AT then inactivates thrombin and other proteases
can be used in vivo (by injection), and also in vitro to prevent
blood or plasma clotting in or on medical devices.
Vacutainer brand test tubes containing heparin are usually colored
green.
Heparin and its derivatives (enoxaparin, dalteparin, tinzaparin) are
effective at preventing deep-vein thromboses and pulmonary
emboli
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 Chondrotin sulfate

Chondroitin sulfate- a major component of cartilage and other
connective tissue
containing two alternating monosaccharides: D-glucuronic acid
(GlcA) and N-acetyl-D-galactosamine (GalNAc).
Loss of chondroitin sulfate from the cartilage is a major cause of
osteoarthritis.
Chondroitin is an ingredient found commonly in dietary
supplements used as an alternative medicine to treat osteoarthritis
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 Keratan sulfate

found especially in the cornea, cartilage, and bone.
The amount of KS found in the cornea is 10 fold higher than it
is in cartilage and 2-4 times higher than it is in other tissues
Keratan sulfates are large, highly hydrated molecules which in
joints can act as a cushion to absorb mechanical shock.
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 Glycoproteins - Proteoglycans
Proteoglycans are glycoproteins that are
heavily glycosylated.
They have a core protein with one or more
covalently attached glycosaminoglycan (GAG)
chain(s).
The chains are long, linear carbohydrate
polymers that are negatively charged under
physiological conditions, due to the occurrence
of sulfate and uronic acid groups

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 Bristles consist of a core protein
to which gags most often
keratan sulfate and chondroitin
sulfate are covalently linked
Interaction between core
protein and hyaluronate is
stabilized by a link protein
Oligosaccharides are
glycosidically linked to the
protein via amide N of specific
Asn residues and therefore
known as N-linked
oligosaccharides
Keratan sulfate and chondroitin
sulfate chains are covalently
bonded to side chain O atoms of
specific Ser or Thr residues thus
called O-linked oligosaccharides.
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 Please read the text book
Bacterial cell walls
Other glyco-conjugates such as glycoproteins
and glycolipids
Glycomics

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 What we have discussed
Introduction and general functions
Monosacchrides
- classification
- sugar derivatives
Polysaccharides
- carbohydrate analysis
- disaccharides
- structural polysaccharides
- storage polysaccharides
- glycosaminoglycans
Glycoproteins
- proteoglycans
- bacterial cell walls
- glycoprotein structure and function
- glycomics
VPP3021 Veterinary Biochemistry