Carbohydrate Chemistry - Biochemistry PDF

Summary

This document provides information on carbohydrate chemistry including fundamental concepts such as its role in energy, the different classifications based on the structure and how it is used in medicine and biology. It is suitable for students interested in organic and biological chemistry.

Full Transcript

BIOCHEMISTRY
carbohydrates
Bio-Philic Dr. Ibrahim El-Husseiny

Carbohydrate chemistry

They are the most abundant form of organic matters on the earth

‫عل سطح االرض‬
‫ه اشهر المركبات العضوية الموجودة ي‬
‫الكربوهيدرات ي‬

They are poly hydroxy aldehyde or poly hydroxy ketone or their derivatives )‫(مشتقاتهم‬

Carbohydrates Contain the elements )‫(عنارص‬: C, H, O

Produced by fundmental pathway )‫ ;(طريقة اساسية‬photosynthesis )H20 + CO2) ‫الضوئ‬
‫ي‬ ‫البناء‬

All animals are reliant on carbohydrate as a source of energy ‫مصدر للطاقة‬

Carbohydrates are found in: MCQ ‫الحتة دي مهمة‬
a) Plants in the form of starch and cellulose

b) Animals in the form of glycogen in liver ‫ الكبد‬and muscle ‫العضالت‬

Sources of Carbohydrates

Bread Beans Potatoes

Milk soft drinks corn

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Classification Of Carbohydrates

1 Monosacchaarides contain single sugar unit

2 Disaccharides contain 2 sugar units

3 Oligosaccharides contain 3 to 10 sugar units

4 Polysaccharides contain more than 10 units

Monosaccharides
They are the simplest sugars ‫اﺑﺴﻂ اﻧﻮاع اﻟﺴﻜﺮ‬

They are the building units of carbohydrates ‫اﻟﻮﺣﺪة اﻟﺒﻨﺎﺋﯿﺔ‬

Their general formula is CnH2nOn MCQ ‫اﻟﺣﺗﺔ دي ﻣﮭﻣﺔ‬

Classification of Monosaccharides

A. According to active group:
1) Aldoses : contain aldehyde group

2) Ketoses : contain ketone group

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B. According to the number of carbon atoms:
 3 Carbons: triose
 4 Carbons: tetrose
 5 Carbons: pentose
 6 Carbons: hexose
 7 Carbons: heptose

C. According to number of carbon atom and active group: 4 ‫ و‬5 ‫ﺻﻔﺣﺔ‬

Studying medicine without teacher is like a sailing without boat, and studying

biochemistry without Ibrahim El-Husseiny is like not going to the sea at all !

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Bio-Philic Dr. Ibrahim El-Husseiny

‫اﻟﺼﻴﻎ اﻟﻜﻴﻤﻴﺎﺋﻴﺔ ﻟﻠﻔﻬﻢ ﻓﻘﻂ‬

Aldoses Ketoses

Trios

Glyceraldehyde Dihydroxyacetone
aldehyde ‫ ذرات كربون والمجموعة الفعالة‬3 ‫يحتوي علي‬ ketone ‫ ذرات كربون والمجموعة الفعالة‬3 ‫يحتوي علي‬

Tetrose

Erythrose Erythroulose
aldehyde ‫ ذرات كربون والمجموعة الفعالة‬4 ‫يحتوي علي‬ ketone ‫ ذرات كربون والمجموعة الفعالة‬4 ‫يحتوي علي‬

Pentose

Ribose Xylose Ribulose Xyloulose

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Aldoses Ketoses

Hexoses

Mannose Glucose Galactose Fructose

Heptoses

Heptose Sedoheptulose

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‫ ُﻣ ِﮭ ﱠﻣﺔٌ ِﺟدا‬MCQ
1) Hexoses are the most common forms of monosaccharides
2) Trioses are the smallest form of monosaccharides
3) The active group is called anomeric carbon (C1 in aldoses or C2 in ketoses)

Now, Show me your intelligence; the smallest monosacchride is:

a) Sedoheptulose
b) Galactose
c) Glyceraldehyde
d) Ribose

Biological importance of monosaccharides
1) Ribose RNA

2) Deoxyribose DNA

3) Glucose: is the sugar of blood ‫اﻟﺪم‬

4) Fructose: is the sugar of the semen ‫اﻟﺴﺎﺋﻞ اﻟﻤﻨﻮي‬

5) Galactose: formed in mammary gland ‫اﻟﻐﺪد اﻟﺜﺪﯾﯿﺔ‬

to make lactose (milk sugar)

6) Mannose: enter the structure of glycoproteins ‫ﺑﺮوﺗﯿﻦ ﺳﻜﺮي‬

7) Inositol (sugar alcohol)  muscle sugar

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Physical Properities Of Monosaccharides

1) Asymmetrical carbon atom (chiral carbon)

It is the carbon atom that attatched to four different chemical groups
All momosaccharides contain assymetrical carbon atom except dihydroxyacetone

2) isomers (‫)اﻟﻨﻈﺎﺋﺮ‬

 Def: compounds with the same chemical groups but differ in arrangment of these
groups (due to prscence of asymmetrical carbon atom)
 Types:

a) D & L isomers (configuration)

There are 2 forms of monosaccharides according to the attachment of OH group of the
subterminal carbon ‫الكربونة قبل االخيرة‬
a) If the OH is attatched to the right side → the sugar is called D
b) If the OH is attatched to the left side → the sugar is called L
The difference make the 2 forms (D & L) mirror image to each other.

Almost all naturally occurring carbohydrates are of D configuration

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b) Functional group isomers
These isomers have the same carbon skeleton and the same position of groups but
differ in functional active groups (aldehyde or ketone)
e.g: glucose and fructose

c) Epimers
They are isomers which differ in distribution of OH groups around a single assymmetric
carbon atom other than the anomeric and the subterminal
Glucose is an epimer to mannose at C 2
Glucose is an epimer to galactose at C 4
But mannose and galactose are not epimers.

Mannose Glucose Galactose

d) Anomers

They are isomers different in distribution of OH group around the asymmetric
anomeric carbon atom ( C1 in aldoses & C2 In ketoses ) in ring form e.g: α glucose
and β glucose
N.B. α and β are convertible to each other (mutarotation)
N.B. equilibrium of solution occurs when it contains 66% β and 33% α and 1 % in
open chain

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Glycosides
 Definition:
 Compounds result from condenstation between monosaccharide and another
compound
 The another compound may be:
a) Monosaccharide
b) Aglycon (non carbohydrate compound)

 Examples of glycosides

Disaccharides (‫ ﺳﻜﺮ‬+ ‫)سكر‬

Sugar Nucleotides )‫ فوسفات‬+ ‫ ﺳﻜﺮ‬+ ‫(قاعدة نيتروجينية‬

Glycolipid )‫ ﺳﻜﺮ‬+ ‫(دهون‬

Glycoproteins )‫ ﺳﻜﺮ‬+ ‫(بروتين‬

Digitalis (Cardiac glycosides) )‫ ﺳﻜﺮ‬+ ‫(ستيرويد‬

Some Antibiotics as Streptomycin (‫ ﺳﻜﺮ‬+ NH2)

Digitalis

The aglycon part is steroid
Digitalis is used for treatment of heart failure
(because it inhibits the enzyme Na , K pump of cell membrane)

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Monosaccharide derivatives

1) Deoxy sugar
 These are sugars in which OH group of C2 is replaced by hydrogen.
 Example: Ribose is converted into deoxyribose

Ribose Deoxy-Ribose

2) Amino Sugars

They are produced by replacing OH group on C2 by an amino group (NH2).
Example : glucosamine & mannosamine

Importance of amino sugars
a) Formation of glycoprotein, proteoglycan and gangliosides.
b) Some antibiotics contain amino sugar such as erthromycin.

mannosamine
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3) Amino sugar acids
Pyruvic
 These are formed by addition of acids to amino sugars. acid
a) Neuraminic acid: mannosamine and pyruvic acid
b) sialic acid: N Acetyl Neuraminic Acid (NANA).

Importance of NANA: Acetyl
a) This negatively charged residue is found in
glycoproteins present in cell membrane.
b) Enters in compositions of gangliosides.
c) Important in the biology of pathogenic bacteria.

4) sugar alcohols
 Reduction of monosaccharides gives sugar alcohols.

Ribose reduction gives Ribitol that is a part of the structure of vitamin B2
(Riboflavin).
Glucose Reduction gives sorbitol or glucitol that enters in medical industries.
Fructose reduction gives Sorbitol or Mannitol.

Inositol: It is a hexahydric alcohol (6 OH groups).It presents in high
concentration in heart and muscles tissues, so it is called muscle sugar.

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5) Sugar acids
 Aldoses may be oxidized to 3 types of acids:
a- Aldonic acids:
 aldehyde group is oxidised to a carboxyl group.
 D- Glucose is converted to gluconic acid
 L-glucose is converted to L-ascorbic acid ( vitamin C)

b- Uronic acids:
 primary alcohol (CH2OH) (last carbon) is oxidized to COOH.
 D- Glucose is converted to D-glucuronic acid

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Importance of glucuronic acid:

1-Glucuronic acid is often linked to xenobiotic substances such as drugs, pollutants.

2- Conjugation with bilirubin, and steroid hormones.

3-Formation of glycosaminoglycans.

c- Saccharicacids :
 oxidation at both ends of monosaccharide.
 Glucose is converted to glucaric (saccharic acid).

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Disaccharides
Formed by condensation between 2 monosaccharides.
The bond between them is called glycosidic bond.

1) Maltose
 Maltose is called malt or corn sugar
 Structure: 2 α-glucose linked by α-1,4 glycosidic bond

α-glucose α-glucose

Maltose

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2) lactose
 Lactose is called milk sugar (it make up around 4.5 – 5 % of milk)
 Lactose is non fermentable.
 Structure: β-galactose + β-glucose linked by β-1,4 glycosidic bond

β-galactose β-glucose

Lactose
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3) Sucrose
 Sucrose is called table sugar or sugar beets oe sugar cane
 Structure: α-glucose + β-fructose linked by α-1 and β-2 glycosidic bond

Sucrose

4) lactulose
Structure: β-galactose and β- fructose linked by β 1,4 glycosidic bond.

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Clinical importance of Lactulose:

 lactulose is is non-absorbable so used in treatment of

constipation & hepatic encephalopathy

 The osmotic activity of lactulose will cause diarrhea →

which will move toxic products

 in colon; bacterial flora convert lactulose into organic acid

 organic acid help NH3 to converted into NH4 (ammonium)

 NH4 can’t diffuse into blood → trapping of ammonia in colon.

Polysaccharides
 Def: compounds formed of more than 10 monosaccharide units linked by glycosidic bonds.
 Types:
Homopolysaccharides Heteropolysaccharides

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Homopolysaccharides
Composed of repeated units of similar monosacchrides.

1- Glycogen 2- Starch 3- Cellulose
Site Liver & muscle Cereals, potatoes & vegetables Wall of Plant cell
The storage form of Prevent
The storage form of carbohydrates in
Function carbohydrates in
plants
constipation
animals

Highly branched
Amylopectins Amylose
Outer part (80%) Inner part (20%)
molecule consists of α-
glucose units linked by Each chain composed of Contains only β- gluose units
α-1,4 glycosidic bonds 20-30 glucose units α 1,4 linked by β 1,4
Structure at straight chains linked by α 1,4 glycosidic glycosidic bonds
and α 1,6 glycosidic glycosidic bonds at bonds with no branches
bonds at branched straight chains and with no
points. α 1,6 glycosidic bonds branches
at branched points.

Functions of cellulose:
 Cellulose not digested by human bodies due to absence of hydrolytic enzymes that
attack β-link. So it prevents constipation as it forms the main bulk of stool (but digested
by cows (ruminanats)

N.B.

1) Maltose results from Partial hydrolysis of starch by amylase enzyme in saliva.
2) Glucose results from complete hydrolysis of starch

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Heteropolysaccharides: Glycos-amino-glycans (GAGs)
 Properties
1) They are present extracellular except heparin.
2) They are structural component of connective tisuue.
3) Formed of repeated disaccharide units (uronic acid + an amino sugar)

Types
Keratan chondroitin Dermatan
Hyaluronic acid: Heparin
sulfate sulfate: sulfate:
β-glucouronic acid + β-N-acetyl sulfated iduronic acid at C2
Structure glucosamine. + sulfated glucosamine at
Hyaluronic acid is sulfate free C2, C6
Cartlige →
Synovial fluid -Vitreous humor of
giving it much
Site the eye - Embryonic tissue – Mast cells Cartlige
resistance for skin
Cartilage- Skin - Umbilical cord
compression.
1) Gel made of hyaluronic acid has 1) Prevent blood clotting Large and With
good resistance to compression (anticoagulant) highly glucosamine →
2) Combats (prevent) osteoarthritis hydrated used in
Function 3) Lubricant and shock absorber. 2) Stimulates lipoprotein molecule, treatment of
and clinical 4) Skin moisture lipase enzyme that which acts as a osteoarthritis
importance 5) Part of cementing ground hydrolyze lipids. cushion in
substance. joints
6) Aids in wound healing

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Notes

Hyaluronidase enzyme
 Definition: the enzyme that hydrolyze hyaluronic acid.
 Site:
a) It is secreted by invasive bacteria. It helps the spread of bacteria through
subcutaneous tissue.
b) It is also present in sperm and helps fertilization.

 Clinical importance of hyaluronidase enzyme:
 Hyaluronidase has been used to enhance (increase) the absorption of fluids given
by subcutaneous injection or intramuscular injection , and to improve the
diffusion of local anesthetics.
 Drugs whose subcutaneous administration has been facilitated in this way include
morphine , insulin , and immunoglobulins.

Clinical uses of heparin:
 Heparin is used as anti-thrombotic to treat and prevent thromboembolic events,
 as well as for systemic anti-coagulation during cardiopulmonary bypass and dialysis.

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Proteoglycans and glycoproteins (Conjugate)
Both are proteins containing carbohydrates ,but:
1) They contain different Sugars.
2) They have different Structures.
3) They are present in different Sites.
4) They perform different functions.

Proteoglycans
 Definition: Proteins are combined with carbohydrates called glycosaminoglycans
(mucopoly-saccharide)
 Structure: they are composed of protein core attached to unbranched chain of
glycosaminoglycans.

Glycoproteins (Mucoproteins)
 Definition carbohydrates attached to protein core
 These carbohydrates may be:
a) Pentoses: arabinose, xylose.
b) Hexoses: galactose, mannose.
c) Sialic acid.
d) N acetyl glucosamines, N acetyl galactosamines.
 But it does not contain glucose – glucuronic acid – sulfate group

 Functions of glycoproteins
1) Cell surface Receptors.
2) Some Enzymes are glycoproteins
3) Some Hormones as lutenizing hormone (LH) are glycoproteins
4) Act as Lubricants in mucin of GIT, respiratoty and urogenital tracts.
5) Antibodies (Immunoglobulins) , interferon, complement factors are glycoproteins.
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6) Recognition signals: blood groups are a good example:

 There are four major blood groups in humans: A, B, AB, and O

 Structure of blood group antigen:

1) Glycophorin A (Integral protein present on cell membrane of RBCs)

2) Oligosaccharide attatched to glycophorin A

3) The oligosaccharide can have a different Terminal sugars or not.

 This terminal sugar determine the type of blood group

 This terminal sugar is added by different types of glycosyl

transferases enzyme  as in blood group A, B & AB

 Some individuals do not have glycosyl transferases enzyme to

add the terminal sugar  as in blood group O

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Importance of carbohydrates
1. The major Source of energy in both animal & plants

2. Carbohydrates are used in Synthesis of cell surface receptors (short chains linked to

lipids and proteins)

3. Carbohydrates are used to form Structural elements ,such as chitin in animals

and cellulose in plants

4. Carbohydrates considered as building blocks ‫ وحدات بنائية‬for other molecules: (e.g.

conversion to

fat, amino acids, nucleic acids)

5. Carbohydrates in the form of fibers can help to lower blood glucose and cholesterol

levels and prevent constipation

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