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Transcript
THE CHEMICAL CONSTITUENTS OF CELLS CONSTITUENTS INCLUDE • • • • • Carbohydrates Lipids Proteins Nucleotides and Nucleic acids Inorganic components Carbohydrates • compounds of Carbon, Hydrogen and Oxygen • source of energy in respiration • as structural materials in plants and insects • as storage materials Carbohydrates Carbohydrates Monosaccharides Disaccharides Polysaccharides Monosaccharides • • • • • • cannot hydrolyzed into simpler unit sweet soluble in water can be crystallized all are reducing sugars e.g. Hexose and Pentose Hexose • Hexose include glucose, fructose and galactose • glucose can be found in all living cells • fructose can only be found in fruit and honey Glucose Galactose Pentose • Pentose such as ribose found in nucleic acid Disaccharides • made up of 2 monosaccharides joining together by glycosidic bond • sweet • soluble in water • can be crystallized • all are reducing sugars except sucrose Sucrose • found in sugar cane and beet root • formed by condensation of glucose and fructose • is non reducing as the reducing groups are involved in the glycosidic bond Sucrose Maltose • found in germination seeds • formed by condensation of two glucose compounds Polysaccharides • made up of more than 10 monosaccharides from hydrolysis • tasteless • insoluble in water • cannot be crystallized • e.g. cellulose, starch and glycogen Cellulose • found in plant cell wall only • formed by linear polymer of glucose • molecules are arranged in bundles of parallel chains by hydrogen bonding Starch • • • • carbohydrate stored in plants formed by polymerization of glucose exist in helical chain form helical chains are folded and packed to form starch grain Glycogen • • • • food stored in animal formed by polymerization of glucose more highly branched than starch exist as tiny granules in cytoplasm Lipids • compounds of Carbon, Hydrogen and Oxygen with smaller proportion of Oxygen than Carbohydrates • insoluble in water • soluble in non polar solvents • esters of fatty acid and glycerol Functions of Lipids • for energy production which have higher energy value than carbohydrate and protein • as structural materials in cell membrane • as stored energy in oils and fats • as good heat insulator to reduce heat loss • as constituent of vitamin D and hormones • as solvent for fat soluble vitamins Phospholipids • found in cell membrane • as structural components of membrane Triglycerides • As storage compounds Proteins • make up of amino acids • 3-dimensional in shape Properties of Proteins • colloidal in nature which can affect osmotic potential • denature under high temperature, extreme pH and presence of certain chemicals • amphoteric, can combine with acids and alkalis to stablize pH Amino Acids • 20 kinds of amino acids • soluble in water • insoluble in non polar solvent Essential & Non-essential Amino Acids • man can only synthesize about 10 kinds of amino acids • non-essential amino acids are those amino acids that can be synthesized by the body • essential amino acids are those amino acids that cannot be synthesized by the body and must obtain from other sources • plants can synthesize all amino acids Nucleotides and Nucleic Acids Nucleotides Mononucleotides Dinucleotides Polynucleotides ATP as energy-rich compound NAD as a coenzyme RNAs and DNAs as carriers of genetic information Nucleotides • consist of phosphoric acid, sugar backbone and nitrogenous base • two types of nitrogenous bases: pyrimidine base and purine base Pyrimidine Bases Cytosine (C) Uracil (U) Thymine (T) Purine Bases Adenine (A) Guanine (G) Nucleic Acids • • • • carry genetic information determine the characteristics of an organism are polymers of nucleotides two types of nucleic acids: DNA and RNA Deoxyribonucleic acid (DNA) - A double helix structure of DNA - The base A pairs with T and base G pairs with C Ribonucleic Acid (RNA) - A Single strand RNA Inorganic Components • ions • water The Occurrence of Ions in Cells • • • • • soluble and can effect osmotic potential can affect pH of cytoplasm act as metabolites in biochemical reactions activate enzymes be constituents of biomolecules The Biological Significance of Water • as the main constituent of protoplasm • as medium and metabolite in many biochemical reactions • as universal solvent to dissolve substances to aid absorption, excretion and transportation
