Structure & Function of Large Biological Molecules (Ch. 5)
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1 Structure & Function of Large Biological Molecules (Ch. 5)
2 Macromolecules Smaller organic molecules join together to form larger molecules macromolecules 4 major classes of macromolecules: carbohydrates lipids proteins nucleic acids
3 Polymers Long molecules built by linking repeating building blocks in a chain monomers building blocks repeated small units covalent bonds H 2 O HO H HO H Dehydration synthesis HO H
4 How to build a polymer Synthesis joins monomers by taking H 2 O out one monomer donates OH other monomer donates H + together these form H 2 O requires energy & enzymes H 2 O HO Dehydration synthesis Condensation reaction HO H HO enzyme H H
5 How to break down a polymer Digestion use H 2 O to breakdown polymers reverse of dehydration synthesis cleave off one monomer at a time H 2 O is split into H + and OH H + & OH attach to ends requires enzymes releases energy HO Breaking up is hard to do! enzyme H H 2 O Hydrolysis Digestion HO H HO H
6 CH 2 OH H HO H OH O H H OH H OH Carbohydrates energy molecules
7 Carbohydrates Carbohydrates are composed of C, H, O Function: energy energy storage raw materials structural materials Monomer: sugars carbo - hydr - ate CH 2 O (CH 2 O) x ex: sugars, starches, cellulose C 6 H 12 O 6 sugar sugar sugar sugar sugar sugar sugar sugar
8 Sugars Most names for sugars end in -ose Classified by number of carbons 6C = hexose (glucose) 5C = pentose (ribose) 3C = triose (glyceraldehyde) CH 2 OH CH 2 OH H C O H HO H OH O H H OH O HO H HO H H H H C C OH OH H Glucose OH OH H Ribose H Glyceraldehyde
9 Functional groups determine function carbonyl aldehyde carbonyl ketone
10 Sugar structure 5C & 6C sugars form rings in solution Where do you find solutions in biology? In cells! Carbons are numbered
11 Numbered carbons 5' C C 6' O 4' C C 1' energy stored in C-C bonds C 3' C 2'
12 Simple & complex sugars CH 2 OH Monosaccharides simple 1 monomer sugars glucose Disaccharides 2 monomers sucrose Polysaccharides large polymers starch H HO O H OH H H OH Glucose H OH
13 Building sugars Dehydration synthesis monosaccharides disaccharide glucose H 2 O glucose maltose glycosidic linkage
14 Building sugars Dehydration synthesis monosaccharides disaccharide glucose H 2 O fructose sucrose (table sugar)
15 Polysaccharides Polymers of sugars costs little energy to build easily reversible = release energy Function: energy storage starch (plants) glycogen (animals) in liver & muscles structure cellulose (plants) chitin (arthropods & fungi)
16 Linear vs. branched polysaccharides slow release starch (plant) energy storage What does branching do? glycogen (animal) fast release Let s go to the videotape!
17 Polysaccharide diversity Molecular structure determines function in starch in cellulose isomers of glucose structure determines function
18 Digesting starch vs. cellulose starch easy to digest enzyme cellulose hard to digest enzyme
19 Cellulose Most abundant organic compound on Earth herbivores have evolved a mechanism to digest cellulose most carnivores have not that s why they eat meat to get their energy & nutrients cellulose = undigestible roughage But it tastes like hay! Who can live on this stuff?!
20 Chitin, a different structural polysaccharide H OH CH 2 OH H OH O H OH H H NH C O CH 3 (a) The structure of the chitin monomer. (b) Chitin forms the exoskeleton of arthropods. This cicada is molting, shedding its old exoskeleton and emerging in adult form. It is also found in Fungal Cell Walls. (c) Chitin is used to make a strong and flexible surgical thread that decomposes after the wound or incision heals.
21 Cow can digest cellulose well; no need to eat other sugars Gorilla can t digest cellulose well; must add another sugar source, like fruit to diet
22 Helpful bacteria How can herbivores digest cellulose so well? BACTERIA live in their digestive systems & help digest celluloserich (grass) meals Caprophage Ruminants Tell I me eat about the rabbits, again, WHAT! George!
23 Lipids long term energy storage concentrated energy
24 Lipids Lipids are composed of C, H, O long hydrocarbon chains (H-C) Family groups fats phospholipids steroids Do not form polymers big molecules made of smaller subunits not a continuing chain
25 Structure: Fats glycerol (3C alcohol) + fatty acid fatty acid = long HC tail with carboxyl (COOH) group head enzyme H 2 O dehydration synthesis
26 Triacylglycerol Building Fats 3 fatty acids linked to glycerol ester linkage = between OH & COOH hydroxyl carboxyl
27 Dehydration synthesis H 2 O dehydration synthesis enzyme H 2 O enzyme H 2 O enzyme H O
28 Fats store energy Long HC chain polar or non-polar? hydrophilic or hydrophobic? Function: energy storage concentrated all H-C! 2x carbohydrates cushion organs insulates body think whale blubber! Why do humans like fatty foods?
29 Saturated fats All C bonded to H No C=C double bonds long, straight chain most animal fats solid at room temp. contributes to cardiovascular disease (atherosclerosis) = plaque deposits
30 Unsaturated fats C=C double bonds in the fatty acids plant & fish fats vegetable oils liquid at room temperature the kinks made by double bonded C prevent the molecules from packing tightly together mono-unsaturated? poly-unsaturated?
31 Saturated vs. unsaturated saturated unsaturated
32 Phospholipids Structure: glycerol + 2 fatty acids + PO 4 PO 4 = negatively charged It s just like a penguin A head at one end & a tail at the other!
33 Phospholipids Hydrophobic or hydrophilic? fatty acid tails = hydrophobic PO 4 head = hydrophillic split personality attracted to water Come here, No, go away! Come here, No, go away! interaction with H 2 O is complex & very important! repelled by water
34 Phospholipids in water Hydrophilic heads attracted to H 2 O Hydrophobic tails hide from H 2 O can self-assemble into bubbles bubble = micelle can also form a phospholipid bilayer early evolutionary stage of cell? water bilayer water
35 Why is this important? Phospholipids create a barrier in water define outside vs. inside they make cell membranes! Tell them about soap!
36 Structure: 4 fused C rings +?? Steroids different steroids created by attaching different functional groups to rings different structure creates different function examples: cholesterol, sex hormones cholesterol
37 Cholesterol Important cell component animal cell membranes precursor of all other steroids including vertebrate sex hormones high levels in blood may contribute to cardiovascular disease
38 Cholesterol Important component of cell membrane helps keep cell membranes fluid & flexible
39 From Cholesterol Sex Hormones What a big difference a few atoms can make!
40 Proteins Multipurpose molecules AP Biology
41 Proteins Most structurally & functionally diverse group Function: involved in almost everything enzymes (pepsin, DNA polymerase) structure (keratin, collagen) carriers & transport (hemoglobin, aquaporin) cell communication signals (insulin & other hormones) receptors defense (antibodies) movement (actin & myosin) storage (bean seed proteins)
42 Proteins Structure monomer = amino acids 20 different amino acids polymer = polypeptide protein can be one or more polypeptide chains folded & bonded together large & complex molecules complex 3-D shape hemoglobin H 2 O AP Biology Rubisco growth hormones
43 Structure central carbon amino group carboxyl group (acid) R group (side chain) variable group Amino acids different for each amino acid H H confers unique chemical properties to each amino acid like 20 different letters of an alphabet can make many words (proteins) N H O C C OH R Oh, I get it! amino = NH 2 acid = COOH
44 Effect of different R groups: Nonpolar amino acids nonpolar & hydrophobic Why are these nonpolar & hydrophobic?
45 Effect of different R groups: Polar amino acids polar or charged & hydrophilic Why are these polar & hydrophillic?
46 Ionizing in cellular waters H+ donors
47 Ionizing in cellular waters H+ acceptors
48 Sulfur containing amino acids Form disulfide bridges covalent cross links betweens sulfhydryls stabilizes 3-D structure H-S S-H You wondered why perms smell like rotten eggs?
49 Building proteins Peptide bonds covalent bond between NH 2 (amine) of one amino acid & COOH (carboxyl) of another C N bond dehydration synthesis H 2 O AP Biology peptide bond
50 Building proteins Polypeptide chains have direction N-terminus = NH 2 end C-terminus = COOH end repeated sequence (N-C-C) is the polypeptide backbone can only grow in one direction
51 Protein structure & function Function depends on structure 3-D structure twisted, folded, coiled into unique shape pepsin hemoglobin collagen
52 Primary (1 ) structure Order of amino acids in chain amino acid sequence determined by gene (DNA) slight change in amino acid sequence can affect protein s structure & its function even just one amino acid change can make all the difference! AP Biology lysozyme: enzyme in tears & mucus that kills bacteria
53 Sickle cell anemia Just 1 out of 146 amino acids! I m hydrophilic! But I m hydrophobic!
54 Secondary (2 ) structure Local folding folding along short sections of polypeptide interactions between adjacent amino acids H bonds weak bonds between H & O of non-r group atoms forms sections of 3-D structure -helix -pleated sheet
55 Secondary (2 ) structure
56 Tertiary (3 ) structure Whole molecule folding interactions between distant amino acids hydrophobic interactions cytoplasm is water-based nonpolar amino acids cluster away from water H bonds & ionic bonds disulfide bridges covalent bonds between sulfurs in sulfhydryls (S H) anchors 3-D shape
57 Quaternary (4 ) structure More than one polypeptide chain bonded together only then does polypeptide become functional protein hydrophobic interactions collagen = skin & tendons hemoglobin
58 Protein structure (review) 1 amino acid sequence peptide bonds R groups hydrophobic interactions disulfide bridges (H & ionic bonds) 3 multiple polypeptides hydrophobic interactions 4 determined by DNA 2 R groups H bonds
59 Conformation of lysozyme (a protein) Groove (a) A ribbon model Groove (b) A space-filling model
60 Protein denaturation Unfolding a protein conditions that disrupt H bonds, ionic bonds, disulfide bridges temperature ph salinity alter 2 & 3 structure alter 3-D shape destroys functionality In Biology, size doesn t matter, SHAPE matters! some proteins can return to their functional shape after denaturation, many cannot
61 Nucleic Acids Information storage
62 Nucleic Acids DNA Function: genetic material stores information genes blueprint for building proteins» DNA RNA proteins transfers information blueprint for new cells blueprint for next generation proteins
63 DNA RNA protein: information flow in a cell DNA 1 Synthesis of mrna in the nucleus mrna NUCLEUS CYTOPLASM 2 Movement of mrna into cytoplasm via nuclear pore mrna Ribosome 3 Synthesis of protein Polypeptide Amino acids
64 Examples: Nucleic Acids RNA (ribonucleic acid) single helix DNA (deoxyribonucleic acid) double helix Structure: monomers = nucleotides RNA
65 Nucleotides 3 parts nitrogen base (C-N ring) pentose sugar (5C) ribose in RNA deoxyribose in DNA phosphate (PO 4 ) group Nitrogen base I m the A,T,C,G or U part! Are nucleic acids charged molecules?
66 Types of nucleotides 2 types of nucleotides different nitrogen bases purines double ring N base adenine (A) guanine (G) pyrimidines single ring N base cytosine (C) thymine (T) uracil (U) Purine = AG Pure silver!
67 Backbone Nucleic polymer sugar to PO 4 bond phosphodiester bond new base added to sugar of previous base polymer grows in one direction N bases hang off the sugar-phosphate backbone Dangling bases? Why is this important?
68 Pairing of nucleotides Nucleotides bond between DNA strands H bonds purine :: pyrimidine A :: T 2 H bonds G :: C 3 H bonds Matching bases? Why is this important?
69 DNA molecule Double helix H bonds between bases join the 2 strands A :: T C :: G H bonds? Why is this important?
70 Copying DNA Replication 2 strands of DNA helix are complementary have one, can build other have one, can rebuild the whole Matching halves? Why is this a good system?
71 When does a cell copy DNA? When in the life of a cell does DNA have to be copied? cell reproduction mitosis gamete production meiosis
72 Ratio of A-T::G-C affects stability of DNA molecule Interesting note 2 H bonds vs. 3 H bonds biotech procedures more G-C = need higher T to separate strands high T organisms many G-C parasites many A-T (don t know why)
73 Another interesting note ATP Adenosine triphosphate modified nucleotide adenine (AMP) + P i + P i + +
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