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Carbohydrates Properties Review
1. What are the organic chemical groups that characterize carbohydrates? How are carbohydrates classified according to the presence of those groups? Carbohydrates are also known as sugars (starches, cellulose and other substances are carbohydrates too). Carbohydrates are polyhydroxylated aldehydes or polyhydroxylated ketones (polyalcohol aldehydes or polyalcohol ketones). Polyhydroxylated aldehydes are called aldoses and polyhydroxylated ketones are called ketoses. 2. What is the molecular formula of glucose? How can its structural formula be described? The molecular formula of glucose is C6H12O6. Structurally glucose is a hexagonal ring formed by one atom of oxygen and five atoms of carbon; a hydroxyl radical and a hydrogen atom bind in each carbon of the ring, except for one of the carbons bound to the oxygen of the ring; this carbon binds to a CH2OH radical. Spatial sides of hydroxyl bonds are alternated. Carbohydrates Properties Review - Image Diversity: glucose molecule 3. What are monosaccharides, oligosaccharides and polysaccharides? Monosaccharides are simple molecules of carbohydrates that cannot be broken into smaller molecules of other carbohydrates. Oligosaccharides are carbohydrates made by union of a maximum of 10 monosaccharides. Polysaccharides are polymers of monosaccharides made of more than 10 units of such monomers. The most important polysaccharides are cellulose, starch, glycogen and chitin. 4. What is the difference between monosaccharides and disaccharides? What are some examples of disaccharides and of monosaccharides that form them? Monosaccharides are simple molecules of carbohydrates that cannot be broken into other carbohydrates. Glucose and fructose are examples of monosaccharides. Disaccharides are carbohydrates made of two monosaccharides and with the loss of one molecule of water (dehydration). The chemical bond between two monosaccharides is known as a glycosidic bond. Sucrose (table sugar) is a disaccharide made by the union of one molecule of glucose with one molecule of fructose. Maltose is a disaccharide made by two glucose molecules. Lactose (milk sugar) is another disaccharide and it is created by the union of one molecule of galactose with one molecule of glucose. 5. What are hexoses? What are some examples of hexoses with important biological functions? Hexoses are carbohydrates made of six carbons. Glucose, fructose and galactose are examples of hexoses. Hexoses have an important biological role as energy sources for the metabolism. Carbohydrates Properties Review - Image Diversity: fructose molecule sucrose molecule 6. What are pentoses? What are the roles of pentoses in DNA and RNA molecules? Pentoses are carbohydrates made of five carbons. The DNA molecule is made of a sequence of molecules called nucleotides. Each nucleotide is formed by the association of one pentose called deoxyribose with a phosphoric acid and a nitrogen-containing base (A, T, C or G). RNA is also formed by a sequence of nucleotides. The RNA nucleotides are made by association of one ribose (a pentose) with one phosphoric acid and one nitrogen-containing base (A, U, C or G). So pentoses are fundamental components of DNA and RNA. Carbohydrates Properties Review - Image Diversity: pentoses 7. What are the main biological functions of the polysaccharides? Polysaccharides have an energy storage function and a structural function. Polysaccharides incorporated by living beings along the food chain are important sources of carbohydrates for the energetic metabolism of organisms of the next trophic levels. Starch is the polysaccharide used for energy store by plants. Glycogen is a macromolecule responsible for the storage of glucose in the liver and muscles. Chitin is a polysaccharide with structural functions that constitutes the exoskeleton of the arthropods and the cell wall in fungi. |