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The Molecules of Life. Chapter 2. Preview. Review of chemical bonds (covalent, ionic, hydrogen bonds) Small molecules important for life Water (properties, pH, buffer) Other small molecules Macromolecules Protein Lipid Polysaccharide Nucleic acid. Atoms and Elements. Atoms
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The Molecules of Life Chapter 2
Preview • Review of chemical bonds (covalent, ionic, hydrogen bonds) • Small molecules important for life • Water (properties, pH, buffer) • Other small molecules • Macromolecules • Protein • Lipid • Polysaccharide • Nucleic acid
Atoms and Elements • Atoms • Basic unit of all matter • three major components • Protons • Electrons • Neutrons
Atoms and Elements • Elements • Substance that consists of a single type of atom • 92 naturally occurring elements • 99% of all living matter by weight made up of four • Carbon • Hydrogen • Oxygen • Nitrogen • Phosphorus and sulfur make up additional 0.5%
Atoms and Elements • Each element is identified by two numbers • Atomic number • Number of protons occupying the nucleus • In an uncharged element this also equals the number of electrons • Atomic mass • Number of protons plus the number of neutrons
Atoms and Elements • Electrons of each element are arranged in orbital • Each orbital contain a certain number of electrons • Each orbital must be filled before electrons occupy the next • Orbitals farthest from the nucleus have the highest energy • most stable when the outer orbital contains the maximum number of electrons • 2, 8, 8 etc.
Chemical Bonds and the Formation of Molecules • To fill outer orbitals atoms form bonds with other atoms • Bonds :sharing or the gain or loss of electrons • Molecules are formed when atoms bond together • Valence: the number of electrons that an atom must gain or lose to fill its outer orbital. • types of chemical bonds (vary in strength) • Covalent bonds • Ionic bonds • Hydrogen bonds
Covalent Bonds • Formed by sharing of electrons between atoms • Strong (difficult to break) • Requires significant energy • Enzyme • can be polar or non-polar
Covalent Bonds • Non-polar covalent • Equal attraction • H-H or C-H • Organic compound • C-C bond
Covalent Bonds • Polar covalent • Unequal attraction • Produces a slight charge within the molecule • O-H
Ionic Bonds • gaining or losing electrons • Loss and gain of electrons leads to charged atoms (ions) • Cation • Anion • Charged atoms are attracted to each other and form a bond between ions • Ionic bond
Ionic Bonds • Ionic bonds are weaker than covalent bonds • Bonds dissociate in water • Important among weak forces holding biological molecules together
Hydrogen Bonds • Weak bonds formed between polar molecules • Most commonly between hydrogen and oxygen or nitrogen • Hydrogen bonds occur between molecules such as water and DNA • Covalent bonds are formed within the molecules • Covalent bonds hold atoms together • Hydrogen bonds hold molecules together
Hydrogen Bonds • Weakest of the biological bonds • Constantly being formed and broken at room temperature • Large numbers of hydrogen bonds can hold molecules together firmly • Important for molecule-molecule such as enzyme-substrate interaction.
questions • What is atomic number? • Cation is formed by: • Lose electron • Share electron • Gain electron • Which is the strongest chemical bond? • Ionic bond • Hydrogen bond • Covalent bond
Small molecules of the Cell--water • Most important molecule is water • Makes up over 70% of all living organisms by weight • Importance of water depends on it unusual bonding properties
Bonding Properties of Water • Bonding properties of water • Hydrogen bonds form between water molecules
Bonding Properties of Water • Water is a great solvent. • Polar nature accounts for ability • Molecules dissolved must contain charged atoms • Ions become surrounded by water • Na+ and Cl- ions no longer able to bond to each other
Important Property of solution--pH • Acidity is measured as pH • Defined as concentration of H+ ions • potential Hydrogen • Measured on logarithmic scale of 0 to 14 • Neutral is pH 7 (H+ and OH- ions are equal solution) • acid • base • [H+] x [OH-]=10-14 • Buffer system: help to maintain neutral pH.
Other Small Molecules in the Cell • small organic and inorganic molecules • ~ 1% of dry weight of bacteria composed of inorganic ions • Na+, K+, Mg2+, Ca2+, Fe2+, Cl-, PO43- and SO42- • Certain enzymes require positively charged ions for proper functioning • Negatively charged phosphate ions are essential in energy metabolism • Small organic molecules act as precursor metabolites • These are converted to the building blocks of macromolecules
Macromolecules and Their Component Parts • Macromolecules are very large • Macro = large • Biological macromolecules are divided into four classes • Proteins • Polysaccharides (carbohydrates) • Lipids • Nucleic acids
Macromolecules and Their Component Parts • All macromolecules are polymers • Poly = many • formed by joining smaller subunits together • dehydration reaction
Macromolecules and Their Component Parts • Macromolecules are broken down into smaller subunits • hydrolysis
questions • What is pH? • What is the function of buffer? • Macromolecules are formed by___ reaction of the subunits. hydrolysis dehydration
Proteins and Their Functions • 50% of cell dry weight • Made up of amino acid subunits • Most versatile • Some responsibilities include • Catalyzing reactions • Composition and shape of certain bacterial structures • Gene regulation • Nutrient procurement
Amino Acid Subunits • 20 different types of amino acids • common features for amino acids • The side chain differentiates the amino acids • Hydrophilic • Hydrophobic (contain methyl group) • Stereoisomers • L, D amino acid
Peptide Bonds and Their Synthesis • peptide bonds • Formed between carboxyl group of one amino acid and the amino group of the following amino acid • Release water molecule
Protein Structure • Protein function depends on the shape of the protein • Protein shape depends on the sequence of amino acids • Proteins have four structures • Primary • Secondary • Tertiary • Quaternary
Protein Structure • Primary structure • Sequence of amino acids • In large part determines other protein features
Protein Structure • Secondary structure • Primary structure folds into new configuration • Helical structure • Alpha (α) helix • Pleated structure • Beta (β) sheet • Results from weak bonds formed between amino acids • Certain sequences of the aa leads to distinct secondary structures
Protein Structure • Tertiary structure • 3 dimensional structure • 2 major shapes • Globular • Fibrous • Becomes functional protein • Tertiary structure depends on primary structure and interaction with water. • Hydrophobic interaction • S-S bond (covalent)
Protein Denaturation • Specific shape for proper function • breaking bonds within the protein disrupt structure • protein stop functioning • Denaturation can be reversible or irreversible • Environment determines reversibility • Heat • chemical
Substituted Proteins • Proteins that has other kind of molecules covalently bond to side chain of amino acid. • Glycoprotein: sugar attached • Lipoprotein: lipid bond.
questions • How many kinds of amino acid are there in a protein? • What is the primary structure of a protein? • What determine the shape of a protein?
Carbohydrates • Carbohydrates are diverse group of molecules with various sizes • Play important roles in all organisms including • Common source of food and energy • Form part of nucleic acids • Form part of bacterial cell wall
Carbohydrates • Carbohydrates contain carbon, hydrogen and oxygen in 1:2:1 ratio • CH2O • Monosaccharide • Classified by number of carbons in molecule • Most common monosaccharides • 5 and 6 carbon sugars
Carbohydrates • Disaccharides • two monosaccharides joined through dehydration synthesis • Lactose and sucrose most common in nature • Glucose + galactose = lactose • Glucose + fructose = sucrose • Maltose less common • Glucose + glucose = maltose
Carbohydrates • Polysaccharides • Serve different function • Cellulose most abundant organic molecule on earth • Polymer of glucose molecules • Principle constituent in plant cell wall • Glycogen is carbohydrate storage molecule of animals and some bacteria • Polymer of glucose subunits • Dextran storage molecule for carbon and energy for some bacteria • Polymer of glucose subunits
Nucleic Acids • Two types of nucleic acid • DNA • Carry genetic code in all cells • RNA • Decodes sequence of DNA to produce proteins • Subunits of nucleic acids are nucleotides
DNA • DNA are composed of 4 kinds of nucleotides. • Five carbon sugar • Deoxyribose • Phosphate molecule • Nitrogenous base • 4 kinds of base: A, T, G, C • DNA sequence are represented by base sequence
DNA • Nucleotides joined through covalent bonding to form a DNA strand • phosphate of one nucleotide join the sugar of the adjacent nucleotide • Results in a sugar phosphate backbone • Direction 5’ to 3’
DNA • double stranded helical molecule • hydrogen bonding between bases from each strand • Specific pairing between bases A-T, G-C • Bases are complementary
RNA • Involved in decoding DNA • Structure is similar to DNA • Uracil replace thymine • ribose in place of deoxyribose • RNA is generally shorter • Single stranded.
questions • What is the subunit of DNA? • What is the difference between DNA and RNA?
Lipids • Critical component of the cell membrane • Membranes act a gatekeepers to the cell • Heterogeneous group of molecules • Made up of different subunits • Defining feature • Insoluble in water • Can be divided into two general classes • Simple lipids • Compound lipids
Simple Lipids • Contain only carbon, hydrogen and oxygen • Most common are called fats • Made of glycerol and fatty acid • Triglyceride • Fatty acids bond to glycerol covalently through dehydration synthesis
Simple Lipids • Steroids are also considered simple lipids • insoluble in water • Sterol (with OH in one ring) • Example: cholesterol
Compound Lipids • fatty acids, glycerol and other elements • Phospholipid most important compound lipid • a phosphate and two fatty acids attached to a glycerol molecule • Amphiphilic molecule
Compound Lipids • Phospholipids • Major component in lipid cell membrane • bilayer of phospholipids • orientation • a barrier to the entry and exit of cellular substances
questions • What is the major component of cell membrane? • What is the defining feature of lipid?