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The Chemistry of Life: Biochemistry Gallagher, Biology 392 Put the following terms in size order: • • • • • • • Atom Cell Proton Protein Carbohydrate Muscle Electron The Nature of Matter • Matter is defined as anything that takes up space • Is there anything that is not matter? • All living things take up space and are made of matter. • Non-living things that take up space are also made of matter • YOU are made of the same material as your desk! What distinguishes living from non-living? Protons Neutrons Electrons Molecules or Compounds Organic Cells LIFE! Atoms bonded Inorganic Non-living matter Not bonded Elements: Shown in Periodic Table ATOMS • Basic unit of matter • Structure of an atom – Nucleus- protons and neutrons held together by the “strong force” • Protons (+) • Neutrons (o) – Surrounding the nucleus - Electron Cloud (orbitals) • Electrons (-) only contains about 1/200th mass of proton or neutron • Constantly moving within orbital- attracted to the nucleus by the “weak force” • Size: 1,000,000 (million) side by side = 1 cm • Atoms like to be neutral- no charge – Equal number of protons and electrons Electron orbitals 1st orbital can only hold 2 electrons (too close to nucleus - not much space) 2nd orbital can hold up to 8 3rd orbital can hold up to 8 Elements • Pure substances • A grouping of the same type of atoms • More than 100 elements exist (shown in the periodic table) • Carbon Elements: The Periodic Table of Elements • Shows all the elements that exist naturally or are synthetic • Each element is represented by a single capital letter or a capital letter followed by a lowercase letter • What other information does the periodic table provide for each element? Atomic Number # of protons (and also # of electrons) Chemical symbol 6 C Name of Element Carbon 12.011 Atomic Mass The weight Of carbon atom or average weight of all isotopes Learning Checkpoint • Draw a representation of a lithium atom. • Draw a representation of a Sodium atom. • What are the three subatomic particles and their charges? • What is the only actual difference between gold and mercury? • What is the atomic mass of lead? Isotopes • Atoms of the same element that differ in the number of neutrons they contain • Isotopes are named by their mass number. – Mass number- protons + neutrons – Example: Carbon isotopes- Carbon 12, Carbon 13, Carbon 14 – Remember: # of protons does not change – All isotopes of an atom have the same chemical properties. Radioactive Isotopes • Have unstable nuclei that break down at a constant rate over time. • As it breaks down radiation is released • Good things: used to date fossils, cancer treatment, “tracer” to follow a substance in an organism, kill bacteria • Bad things: radiation is dangerous and can cause cancer Compounds and Molecules • Atoms need to bond together to make molecules or compounds – Molecule- 2 or more of the same atom bonded together: H2, O2, O3 – Compound- two or more of different atoms bonded together in a specific ratio: C6H12O6 • Molecules and compounds are written out in a chemical formula: Bonding • Covalent Bond- atoms share a pair of electrons (sometimes share 2 (double bond) or 3 (triple bond) pairs) Ionic Bond- One atom (very unstable) gives 1, 2 or 3 electrons away to another atom. The atom that loses electrons becomes positively charged. The atom that gains the electrons becomes negatively charged. The opposite charges cause the atoms to “bond” together (opposites attract). Example of Covalent Bonding- Water Example of a Covalent Bond Example of Ionic Bonding-NaCl Na (sodium) is very unstable because it only has one e- in its outer orbital. Cl’s (chlorine) outer orbital is almost filled. Na gives its lonely e- to Cl. Na become Na+ Cl becomes Cl- Their opposite charges cause them to be attracted to one another- This is an ionic bond. Learning Checkpoint • What is an isotope? • What are some positive uses of isotopes? • What is the difference between molecules and compounds? • Why is it important that atoms bond? • What causes atoms to bond? • Explain the difference between an ionic bond and a covalent bond. 2-2 WATER! • 75% of the Earth is covered with water • 60-70% of your body is water • Water can be found in almost everything we eat and drink • Without any water at all you would die in 3 days Properties of Water • Less dense when frozen (ice floats) • Polarity • Hydrogen bonds – Adhesion – Cohesion • Making Mixtures • Making Acids and Bases Water Density • Ice is less dense than liquid water • When water freezes air is trapped within the frozen ice making the cube larger and less dense • Benefits: – Fish and plant life can survive in liquid layers of water under ice Polarity • Water molecules are polar • Although the molecule is neutral overall there is a shift of charge within the molecule Hydrogen ends become slightly positive The much larger molecule, Oxygen, pulls more on the shared eThis end of the molecule becomes slightly more negative. Hydrogen Bonding • Due to polarity, water molecules attract to one another • Slightly negative oxygen attracts slightly positive hydrogen from another molecule • This attraction between molecules is COHESION. • Water molecules are also attracted to other materials. This is ADHESION. COHESION Water molecules attract To one anothercauses water to “bead” ADHESION Water molecules attract To glass molecules And form a meniscus Mixtures • Two or more elements physically mixed together but not chemically combined 1. Solutions- a solute (salt) is dissolved into a solvent (water – Distributes evenly *Due to water’s polarity it can dissolve ionic compounds and other polar molecules making it THE GREATEST SOLVENT ON EARTH! 2. Suspensions- added substance does not dissolve but breaks into small enough pieces that it remains suspended in the water and does not settle out. Making Acids and Bases • Water molecules can react to form individual ions: H2O H+ + OH• In pure water this occurs naturally but the amount of H+ is always = to the amount of OHso water remains neutral • Some solutions made with water become acidic or basic. This is determined by the amount of H+ (hydrogen ions) in the solution • This is measured on the pH scale Acids • Any compound that forms H+ ions in solution • H+ ions > OH- ions • Range from just below 7 to 0 on the pH scale • The closer to 0 the more acidic the solution • Examples: stomach acid, lemon juice Bases (Alkaline) • Any compound that forms 0H- ions in solution • OH- ions > H+ ions • Range from just above 7 to 14 on the pH scale • The closer to 14 the more basic the solution • Examples: lye, bleach, oven cleaner Buffers • Weak acids or bases that can react weith strong acids or bases • Used to regulate pH and prevent sharp sudden changes in pH • There are natural buffers in your blood that keep the pH at 6.5 to7.5 Learning Checkpoint • Why is ice less dense than water? • What does it mean to say water molecules are polar? • What is the difference between adhesion and cohesion? • What makes a solution acidic or basic? • How is acidity measured? 2-3 Carbon Compounds • Why Carbon? – Carbon can from 4 covalent bonds (can create many different compounds) – Carbons can bond to one another forming large chains or rings • Linking of carbons can form very large molecules called Macromolecules • Each individual unit is called a monomer. When they are linked together they are called a polymer. • 4 macromolecules necessary for life: carbohydrates, lipids, protein, nucleic acids Nucleic Acid • Contain hydrogen, oxygen, nitrogen, carbon and phosphorus • Monomer- nucleotide • Polymer- DNA or RNA • Store or transmit genetic information *Nucleic Acids will be studied in greater detail when we study genetics Carbohydrates • Made of carbon, hydrogen and oxygen (ratio of 1:2:1) • Monomer- monosaccharides (simple sugars): glucose, galactose and fructose – Disaccharides- 2 sugars linked together: sucrose, maltose, lactose • Polymer- polysaccharides: glycogen (animals), starch and cellulose (plants) • Main source of energy Lipids • Made mostly of carbon and hydrogen and some oxygen • Not soluble in water: fats, oils and waxes • Monomer: all lipids have an end called glycerol in which fatty acid chains attach • Polymer- lipid • Used to store energy, also for membrane structure Saturated vs. unsaturated fats Saturated- no double bonds between carbons, all possible hydrogens Unsaturated- at least one double bond, less hydrogen, can bend Protein • Contain nitrogen, carbon, hydrogen and oxygen (amino group and carboxyl group) • Monomer- amino acid • Polymer- polypeptide or protein • Control reactions, regulate cell processes, form bones and muscles, transport and help fight disease Identify the Macromolecule Chemical reactions • Process that changes one set of chemicals (reactants) into another set of chemicals (products • Activation energy -“The starting push” of chemical reactions -The minimal amount of energy required to get a chemical reaction started Enzymes • proteins that lower the activation energy required and allow reactions to happen at the normal temperature of cells. • Each enzyme is specific (only works on one particular reaction) • Can be used over and over again for that reaction • The reactant that the enzyme helps is called the substrate. The enzyme is usually named after the substrate with the ending –ase added to it. • Coenzymes are non-protein helper molecules that sometimes assist enzymes with their job. Learning Checkpoint • What are the 4 carbon compounds necessary for life? • What is the main function of carbohydrates? • What are some of the functions of protein in the body? • What is the easiest way to distinguish a lipid from a carbohydrate? • What is a monomer and a polymer?