the organic chemistry of carbohydrates · 2020. 3. 24. · simple carbohydrates are...

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Organic Chemistry6th Edition

Paula Yurkanis Bruice

Chapter 22

The Organic Chemistry of

Carbohydrates

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Carbohydrates• General molecular formula is Cn (H2 O)n .• Structurally, are polyhydroxy aldehydes or ketones.• The most abundant carbohydrate in nature is glucose.

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Simple carbohydrates are monosaccharides

Complex carbohydrates contain two or more sugar unitslinked together:

• Disaccharides• Oligosaccharides• Polysaccharides

Polyhydroxy aldehydes are aldosesPolyhydroxy ketones are ketoses

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D and L notations are used to describe the configurationsof carbohydrates:

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Configurations of Aldoses

Aldotetroses have two asymmetric centers and four stereoisomers:

Aldopentoses have three asymmetric centers and eightstereoisomers

Aldohexoses have four asymmetric centers and 16stereoisomers

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Diastereomers that differ in configuration at only oneasymmetric center are called epimers:

D-Mannose is the C-2 epimer of D-glucoseD-Galactose is the C-4 epimer of D-glucose

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• A ketose has one fewer asymmetric center than an aldose.

• Therefore, ketoses have fewer stereoisomers than aldoses.

• Naturally occurring ketoses have the ketone group in the 2-position.

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Mechanism for the base-catalyzed epimerization of a monosaccharide:

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Mechanism for the base-catalyzed enediol rearrangement of a monosaccharide:

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Redox Reactions of Monosaccharides

The carbonyl of aldoses and ketoses can be reduced bythe carbonyl-group reducing agents:

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Oxidation

The aldehyde groups can be oxidized by Br2

Ketones and alcohols cannot be oxidized by Br2

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Both aldoses and ketoses are oxidized to aldonic acids by Tollens reagent:

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A strong oxidizing agent such as HNO3 can oxidize both the aldehyde and the alcohol groups:

A primary alcohol is the one most easily oxidized

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Osazone Formation

Aldoses and ketoses react with three equivalents ofphenylhydrazine to form osazones:

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The C-2 epimers of aldoses form identical osazones…

…because the configuration of the C-2 carbon is lost during osazone formation

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The C-1 and C-2 carbons of ketoses also react with phenylhydrazine:

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The carbon chain of an aldose can be increased by onecarbon in a Kiliani–Fischer synthesis:

This reaction leads to a pair of C-2 epimers

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The Wohl degradation shortens an aldose chain by one carbon:

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D-Glucose exists in three different forms:

anomer

anomer

The specific rotation of pure - D-glucose or -D-glucose changes over time to reach an equilibrium (mutarotation)

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If an aldose can form a five- or six-membered ring, it willexist predominantly as a cyclic hemiacetal:

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• Six-membered rings are called pyranoses.• Five-membered rings are called furanoses.• The prefix - indicates the configuration about

the anomeric carbon.

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Ketoses also exist predominantly in cyclic forms:

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-D-Glucose is the most stable of all aldohexoses and predominates at equilibrium:

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Formation of Glycosides

The acetal (or ketal) of a sugar is called a glycoside:

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Mechanism for glycosideformation

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Formation of an N-Glycoside

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Hilbert–Johnson Reaction

Oxocarbocation formation:

Selective -anomer formation:

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-Nucleophilic attack:

Hydrolysis:

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Glycated hemoglobin test: • Without diabetes, 5.5 to 9% glycated hemoglobin• With diabetes, 10.9 to 15.5% glycated hemoglobin

Glucose can form glycosides with amine groups on hemoglobin

Glycoside Formation in Diabetes

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The Anomeric EffectThe preference of certain substituents bonded to theanomeric carbon for the axial position is called theanomeric effect:

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Reducing and Nonreducing Sugars

A sugar with an aldehyde, a ketone, a hemiacetal, or ahemiketal group is a reducing sugar

A sugar without one of these groups is a nonreducingsugar

Nonreducing sugars cannot reduce Ag+ or Br2

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DisaccharidesComposed of two monosaccharide subunits linked

together by an acetal linkage:

In maltose, the OH group bonded to the anomericcarbon is axial, hence the ‘’ in the linkage descriptor

Maltose is a reducing sugar

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In cellobiose, the two subunits are linked together by a-1,4-glycosidic linkage

Cellobiose is a reducing sugar

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In lactose, the two different subunits are joined by a-1,4-glycosidic linkage

Lactose is a reducing sugar and undergoes mutarotation

The -1,4

glycosidic linkage is cleaved by the enzyme lactase

Without lactase, lactose is turned into gases by flora in the lower bowel, producing flatulence and bloating

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Sucrose: The most common disaccharide

Sucrose is not a reducing sugar and does not exhibit mutarotation

Sucrose []D = + 66.5 o Glucose + fructose (1:1) []D = - 22.0 ohydrolysis

H2 O

Hence also called ‘invert sugar’. Bees have invertase

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The trisaccharide raffinose is found in beans and a variety of grains and vegetables

Galactose

Glucose

FructoseSucrose

Cleaved by -galactosidase (-GAL)

-GAL is not in the human digestive tract.

• Raffinose is not cleaved to sucrose and galactose.

• Lower gut flora converts raffinose to gases; flatulence results.

How Does Beano Work?

Beano contains fungal -GAL that cleaves raffinose and other polysaccharides

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Determination of disaccharide structure (sequence)

Consider lactose: disaccharide containing galactose and glucose

How are they linked?

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Polysaccharides

Amylose is a component of starch:

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Amylopectin is another polysaccharide component of starch that has a branched structure:

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Cellulose is the structural material of higher plants:

-1,4-Glycosidic linkages are easier to hydrolyze than -1,4-glycosidic linkages

because of the anomeric effect

OO

O

OO

OH

OH

O O

CH2OH

OH

HO

OH CH2OH

OHCH2OH

intramolecular hydrogen bond

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Chitin: The structural component of the shells of crustaceans

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Naturally occuring derivatives of carbohydrates

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D-Ribose is the sugar component of ribonucleic acid

D-2-Deoxyribose is the sugar component of deoxyribonucleic acid

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Vitamin C (L-ascorbic acid) is synthesized from D-glucose

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Proteins bonded to oligosaccharides are called glycoproteins

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Blood type is determined by the sugar bound to the protein on the surface of red blood cells

(Fucose = 6-deoxygalactose)

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