Organic Basis of life Chapter 3
Organic Compounds Carbon based molecules – Readily form covalent bonds Review electron shell model – Hydrocarbons are nonpolar, containing only C and H Dependent upon – Structural size CH 4, C 6 O 12 H 6, CO 2 different number of carbon atoms – Shape Can form chains, branches, or rings Isomers: same chemical formula, but different atomic arrangement – Functional group Creates specific structural and functional properties
Isomers C 4 H 10 C4H8C4H8
Be able to recognize/identify each Other groups, but don’t need to know Carbohydrates Lipids Proteins DNA, ATP Proteins Functional Groups
Functional Groups in Action
Carbon Significant basis of all living organisms Creates a large diversity of biological molecules – 4 main classes* Carbohydrates Lipids Proteins Nucleic Acids – Distinguishes living from nonliving matter All these molecules are examples of emergent properties * important to know the monomers, polymers, and examples
Building Organic Molecules Monomers are universal or similar units in all forms of life Polymers are functional components of cells – DNA is composed of 4 types of nucleotides Variation based on arrangement – Proteins are composed of 20 different amino acids (AA’s) Variation distinguishes within and between species
Making and Breaking Macromolecules Dehydration reaction Links monomers Loss of water for each monomer added Forms a covalent bond Hydrolysis reaction Breaks polymers Addition of water for each broken bond
Carbohydrates Range from sugar in beverages to starch in foods Basic composition – CH 2 O (1:2:1 ratio) – Have hydroxyl and carbonyl group – End in ‘-ose’ – Hydrophilic (means what?; why?) Types – Monosaccharides – Disaccharides – Polysaccharides Energy storage
Monosaccharides Simple sugars (monomers) – Glucose and fructose Isomers (means what?) Fructose is sweeter – Galactose Main fuel for cells – Unused get incorporated into more complex sugars Most 3-7 carbon atoms long
Disaccharides 2 monosaccharides joined by a glycosidic bond – Dehydration reaction Maltose – glucose + glucose – Whoppers©, malts, beer Sucrose – Glucose + fructose – Table sugar – Plant sap Lactose – galactose + glucose
Polysaccharides Insoluble fiber Storage – Glycogen in animals (short term) – Starch in plants Structure – Cellulose in plant cell walls Not always digestable – Chitin in insect and crustacean exoskeletons Protection and nutrients for animals Surgical thread
Lipids Not true polymers Long term energy storage Insoluble – Salad dressing (o & v) – Bird feathers (repellent beads) 3 types – Triglycerides (fats) Saturated are solid at room temp – Animal fats Unsaturated are liquids at room temp – Plant fats (oils) – Phospholipids – Steroids Sex hormones Synthetic forms
Proteins Polypeptide chain with a specific shape – Polymer of 20 amino acids (AA’s) – Variation determines structure and function Multiple roles – Enzymes: speed chemical reactions, end in ‘-ase’ – Structural: hair and connective tissue – Signal: hormones for communication Altered by denaturation – Changes in [salt], pH, or excessive heat – Danger of high fevers
Amino Acids Common structure varied by side chain (R) Properties determined by R group – Hydrophilic or hydrophobic – (+) or (-) charge Dehydration reaction joins AA’s – Forms peptide bonds – Dipeptide = 2 AA’s joined – Polypeptide = multiple AA’s Hydrolysis reverses – Eating meat All polypeptides are not proteins
Protein Structure Primary (1°) – Sequence of AA’s determined by DNA Secondary (2°) – Folds ( β- pleated sheet) and coils (α-helix) from H-bonding Tertiaty (3°) – 3D shape of polypeptide – Globular or fibrous Quartenary (4°) – 2+ associated polypeptide chains Single change can change shape which changes function
Nucleic Acids DNA Genetic code Nucleotides – Deoxyribose sugar – Phosphate group – 4 nitrogenous bases Adenine (A) Cytosine (C) Guanine (G) Thymine (T) Double stranded – Hydrogen bonds w/i A & T C & G RNA Protein synthesis Nucleotides – Ribose sugar – Phosphate group – 4 nitrogenous bases Adenine (A) Cytosine (C) Guanine (G) Uracil (U) Single stranded – Hydrogen bonds similar A & U C & G
Basis For Life and Individuality Primary structure of polypeptides is determined by genes, discrete units of inheritance Genes are sequences of DNA – DNA determined by organization of 4 nucleotides DNA RNA proteins (polypeptides) – Central dogma of molecular biology Genes are the blueprint for the living organism seen transcribedtranslated
Review of Biological Macromolecules Macromolecule Carbohydrates Proteins Nucleic acids Lipids* Monomer/Polymer(s)/E.g. monosaccharide/ ?/ ? ?/ polypeptide/ ? ?/ nucleic acids/ ? glycerol and FA’s/ ?/ ?* * Not true monomer/polymer match