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Carbohydrate chemistry

Carbohydrate chemistry. Definition Nomenclature Cyclic form of sugar Optical isomerism Glycosidic link Polysaccharides Carbohydrate derivatives. Defination. Carbohydarte are polyhydroxy aldehydes,polydroxyketones or compounds that can be hydrolysed to them Monosaccharides

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Carbohydrate chemistry

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  1. Carbohydrate chemistry Definition Nomenclature Cyclic form of sugar Optical isomerism Glycosidic link Polysaccharides Carbohydrate derivatives

  2. Defination Carbohydarte are polyhydroxyaldehydes,polydroxyketones or compounds that can be hydrolysed to them Monosaccharides Disaccharides are Oligosaccharides polysaccharides

  3. Nomenclature Based on the no. of carbons with the suffix –ose added. CnH2On,n= no. of carbons Triose= three carbons Tetrose= four carbon Pentose = five carbon Hexose= six carbon

  4. cont. Nomenclature can also indicate the reactive groups. A) Aldoses are monosaccharides with aldehyde. B) ketoses are monosaccharides with containing a ketone group. Sugar with aldehyde=aldohexoses. System of numbering the carbon . The carbon are numbered sequentially with aldehyde or ketone group being on the carbon with the lowest possible number.

  5. Cyclic forms of sugar Chemical and physical properties of many sugars has shown that cyclic forms predominate over open-chain structure, both in liquid and solid state. Cyclic form of sugar = pyranoses; they resemble pyran. Frutose= Furanose. The intermolecular hemiacetals.Whenaldehyde react with alcohol. They are unstable compounds.

  6. Open chain and cyclic form

  7. Optical isomerism Asymmetric carbons: carbohydrates contain asymmetric carbons, those bounded to four different atoms or groups of atoms. Because of this asymmetric ,carbohydrates are optically active, rotating the plane of polarized light.

  8. Cont. If plane polarized light is rotated to the right (clockwise) ,the compound is dextrorotatory.(+). If plane polarized light is rotated to the left (counterclockwise) , the compound is called levorotatory. (-).

  9. configuration The simplest carbohydrate are the monosaccharidestrioses for e.gglyceraldehydes,which has two optically active forms designated L and D form

  10. L- Glecarldehyde; D-Glyceraldehyde

  11. Cont. A sugar may be Dextrorotatory or levorotatory irrespective of its D or L configuration. Anomeric carbon : is a new asymmetric carbon that is created by cyclization at the carbon bound to oxygen in hemiacetal formation. If the hydroxyl on the anomeric carbon is below the plane of the ring ,it is said to be in the alpha position, if is above the plane of the ring , it is said to be beta position

  12. Cont.

  13. Cont. In solution alpha and beta slowly change into an equilibrium mixture of both. This process is known as mutarotation.

  14. Glycosidic links Acetals : Hemiacetals reacts with alcohols to form acetals. Glycosides: a sugar react with an alcohols to form an acetal known as glycoside. If the sugar residue is glucose, the derivative is a glucoside, if fructose, it is fructoside , if galactose , it is a galactoside. When R is another sugar , the gyloside is a disacchraide.

  15. cont. Gylcosidic linkages : Reading from left to right. Therefore , sucrose has an alpha 1,2 glycosidic linkage. The disaccharides maltose possess an unattached anomeric carbon atom, which may have either the alpha or beta configuration. The glycosidic linkage in maltose must be in the aplha 1,4 glcosidic configuration.

  16. maltose

  17. Polysaccharides Amylose is a linear unbrancedpolmer of alpha units in a repeating sequence of α 1,4 – glycosidic linkages. Amylopectin is a branced polymer of a α D glucose with α 1,4 glycosidic linkages and with α 1,6 branching points that occur at intervals of approximately 25 to 30 α D glucose residues. Glucogen is a major storage form of carbohydrates in animals found mostly in liver and muscles . It is highly branched form of amylopectin .

  18. Cont. Cellolose is composed of chain of d- glucose units joined by Beta 1,4 linkages. The chains are exclusively linear (i.eunbranced). 1. Cellulose is a structural polysaccharides of plants cells. 2.Although cellulose forms a part of the human diet(i.e diet in vegetables and fruits).it is not hydrolyzed by human enzymes systems.

  19. Carbohydrates derivatives A. Phosphoric acid esters of monosaccharides 1. Phosphorylation is the initial step in the metabolism of sugars. 2. phosphorylation sugars such as d – glucose 1- phosphate are metabolic intermediates.

  20. Phosphorylation

  21. Cont. Amino sugars . In these a , hydroxyl group is replaced by an amino or an acetylamino group.

  22. D acetylglucosamine

  23. cont. 1. Glucosamine is the product of hydrolysis of chitin, the major polysaccharides of the shells of insects and crustaceans. 2. Galactosamine is found in the polysaccharides of cartilage, chondroitinsulphate.

  24. Cont. Sugars acid : are produced by oxidation of the aldehydic carbon , the hydroxyl carbon , or both. Ascorbic acid (vitamin C ) is a sugar acid. Deoxy sugars include 2- deoxyribose , found in DNA

  25. Sugar alcohols Monosaccharides , both aldoses and ketones may be reduced at the carbonly carbon to the corresponding polyhydroxy alcohols(sugar alcohols). Aldoses yield the corresponding alcohols , while ketoses forms two alcohols because a new asymmetric carbon is found in the process.

  26. Cont. Commonly occuringaldoses and ketoses forms the following sugar alcohols: A. D-Glucose yields D sorbitol. B. D Mannose yields D mannitol. C. D Galactose yields dulcitol. D. D.Fructose,andketose yields D mannitol and D sorbitol.

  27. Cont. There are enzyme sysytem in humans tissues that can reduce monosaccharides to their corresponding alcohols.e.g The formation of D-Fructose from D glucose via D-sorbitol in seminal vesicle. In cases of galactokinasedeficency ,excess galactose may be reduced to dulcitol in the lens of the eye.

  28. Cont. Sugar alcohols are also normal constituents of cell components as for e.gribitol which is the carbohydrates moiety of riboflavin, found in the electron carriers riboflavin phosphate and flavin – adenine dinucleotide.

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