BNUR 2003 Biomedical Chemistry & Lab Diagnostics Lecture Notes PDF
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Summary
These lecture notes cover the biomedical chemistry and lab diagnostics course BNUR 2003. It includes important biochemical molecules and macromolecules such as proteins, carbohydrates, and lipids. The notes provide detailed information regarding the molecular structures and functions of these essential biological components.
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2023-09-19 Amino Acids Peptide Bonds BNUR 2003 Structure Biomedical Chemistry and Lab Diagnostics Classes Denaturation 2-Important Biochemical Molecules and Macromolecules 2-1 Proteins 2-2 Carbohydrates + Lipids 2-3 Nucleic acids and mutations Electrophoresis Enzymes Monosaccharides Disacchar...
2023-09-19 Amino Acids Peptide Bonds BNUR 2003 Structure Biomedical Chemistry and Lab Diagnostics Classes Denaturation 2-Important Biochemical Molecules and Macromolecules 2-1 Proteins 2-2 Carbohydrates + Lipids 2-3 Nucleic acids and mutations Electrophoresis Enzymes Monosaccharides Disaccharides Polysaccharides 1 2 Carbohydrates • Carbohydrates (CHO) make up only 1-2 % of our body weight but provide most our chemical energy! • They are water soluble and are composed of _________, _________ and _________ in a ratio of 1:2:1. • CHO can be simple sugars (monosaccharides and disaccharides) or more complex molecules called polysaccharides. 3 Carbohydrates Five- (pentose) and six-carbon (hexose) sugars are the most common. D-glucose is also called dextrose (blood sugar). Carbonyl Group Hydroxyl group 4 1 2023-09-19 Carbohydrates Carbohydrates The most common form of glucose in our bodies is cyclical in structure. Monosaccharides can be linked to form larger structures. Two monosaccharides are joined by a ____________ link to form a disaccharide. This reaction is another example of dehydration synthesis. Dehydration synthesis Hydrolysis Glucose C6H12O6 Fructose C6H12O6 Glycosidic link Sucrose C12H22O11 Water Disaccharides can be broken down into monosaccharides through hydrolysis. 5 6 Carbohydrates Carbohydrates Polysaccharides consist of tens or hundreds of monosaccharides joined together through dehydration synthesis reactions involving either: • 1,4 glycosidic links or • 1,6 glycosidic links Amylopectin and glycogen are polysaccharides with both 1,4 and 1,6 linkages. Amylopectin & Glycogen: Branched chains = 1,4 and 1,6 linkages Amylose and cellulose both have 1,4 glycosidic links. 7 8 2 2023-09-19 Lipids Unlike carbohydrates, lipids do not share a common base. Instead lipids are substances that can be extracted from tissues using organic solvents. Lipids are insoluble in water. Lipids include: Monosaccharides • • • • Disaccharides Polysaccharides Triglycerides ___________ Phospholipids Steroids Fat-soluble vitamins Phospholipids Other lipids 9 Lipids 10 Lipids Glycerol Triglycerides are the most common lipid. They contribute to body form and serve as an energy reserve. Triglycerides are composed of: • A glycerol backbone • Three fatty acids There are many different types of fatty acids, and the specific fatty acids that form a triglyceride determine its structure and function. 11 Carboxyl group Fatty acid (palmitic acid, Saturated) C15H31COOH Hydrocarbon chain 12 3 2023-09-19 Lipids Lipids Ester linkage Glycerol Oleic acid (unsaturated) (C17H33COOH) Palmitic acid (saturated) (C15H31COOH) + H2O + H2O Stearic acid (saturated) (C17H35COOH) + Fatty acids are: • Usually composed of an even number of carbon atoms (16 and 18 are most common) • Mostly saturated (only single C-C bonds) Characteristics of fatty acids: • Longer carbon chains = higher melting points • All else being equal, higher degree of unsaturation = lower melting points H2O cis configuration Molecule of fat (triglyceride) 13 14 Lipids Fatty acid melting point comparison Lipids Phospholipids consist of a glycerol backbone (like triglycerides) in carbons are linked to fatty acids and the third carbon is a phosphate group. Fatty Acid Structural Formula Isomer M.P. which two Common Name (ºC) ___________________________________________________________________________________ bonded to Butyric CH3(CH2)2-COOH -7.9 Caproic CH3(CH2)4-COOH -3.4 Caprylic CH3(CH2)6-COOH 16.7 Capric CH3(CH2)8-COOH 31.6 Lauric CH3(CH2)10-COOH 44.2 Myristic CH3(CH2)12-COOH 53.9 Palmitic CH3(CH2)14-COOH 63.1 Stearic CH3(CH2)16-COOH 69.6 cis Palmitoleic CH3(CH2)5-CH=CH-(CH2)7-COOH 0 cis Oleic CH3(CH2)7-CH=CH-(CH2)7-COOH 15 trans Elaidic CH3(CH2)7-CH=CH-(CH2)7-COOH 46.5 Linoleic CH3(CH2)4(CH=CH-CH2)2(CH2)6-COOH all cis -5 Linolelaidic CH3(CH2)4(CH=CH-CH2)2(CH2)6-COOH all trans 28 Linolenic CH3CH2(CH=CH-CH2)3(CH2)6-COOH all cis -11 Elaidolinolenic CH3CH2(CH=CH-CH2)3(CH2)6-COOH all trans 29 Arachidonic CH3(CH2)4(CH=CHCH2)3CH=CH(CH2)3COOH all cis -49.5 15 16 4