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What Makes up Living Things? What makes up Water? What makes up Carbon Dioxide, Oxygen, etc.
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Elements Substances that are made up of only one type of atom. ex. Gold (Symbol: Au) Silver (Ag) Sodium (Na) - are types of metals Oxygen (O), Hydrogen (H), Helium (He), carbon (C), Chlorine (Cl) Silicon (Si), Sulfur (S)- are types of non-metals
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Compounds substances made up of two or more elements combined in specific amounts. ex: Sodium Chloride-NaCl (formula for table salt) – one atom of sodium for every one atom of chlorine ex: Dihydrogen Oxide-H2O (formula for water) – two hydrogen atoms for every one oxygen atom.
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The cell is a complex "Chemical Factory" made up of the same elements that show up over and over again in different ways. Of all the elements found on earth, there are four main elements that are present in the greatest percentages (amounts) in living things. They are C- carbon H- hydrogen O- oxygen N- nitrogen
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There are other elements that are also found in living things, but in much smaller quantities. These are: S-sulfur, I-Iodine, Na-sodium, Fe-iron, Ca- calcium, K-potassium, Cl-chlorine, P-phosphorus Mg-magnesium ALL organisms are made up of Inorganic and Organic compounds
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I. Inorganic Compounds * compounds that do not contain both carbon and hydrogen. * organisms do require certain inorganic substances to survive: A. Water (H2O) * 65% of most living tissues is H2O!!! * many substances in living things are dissolved in water (solution) * water acts as a transport agent to move substances across cell membranes. B. Salts (ex: NaCl- sodium chloride) * provide many necessary ions for body processes. * help to regulate certain body processes. C. Acids & Bases * help to regulate certain body processes
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Water What ’ s so special about water? – It ’ s a great solventsolvent – It hold ’ s tons of heat – It has high surface tension – Its less dense as a solid than a liquid
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pH Matters pH is a measure of hydrogen ion or H+ conc. Low pH = Acid (lots of H+s), High pH = Base (few H+s). In biology, keeping H+ levels within a narrow range is critically important
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pH Scale
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Monomers and Polymers Monomers = repeated small units Polymers = Long molecules built by linking chain of repeating smaller units
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II. Organic Compounds * compounds that contain both carbon and hydrogen * mainly found in living things A. Carbohydrates B. Lipids C. Proteins D. Nucleic Acids
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A. Carbohydrates * contain C, H, and O ex. glucose-C 6 H 12 O 6 * most end in -ose * are the main source of energy for respiration * also make up some parts of cells
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Structure of a Carbohydrate * the simplest carbohydrates are called monosaccharides (mono=one) (saccharides=sugars) Each subunit looks like this: Like a six -sided ring! Glucose
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What would two rings be called? What about many rings? TWO RINGS=a disaccharide (di= two) ex. maltose MANY RINGS= a polysaccharide (poly=many) ex. starch, glycogen
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Carbohydrates
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B. Proteins: * contains C, H, O, and N * sometimes contains S * many different jobs: 1.structural parts- proteins make up parts of the cell membrane, as well as body parts like muscles and hair 2.enzymes- a class of proteins that control chemical reaction 3.hormones- chemical messengers that regulate body functions 4.antibodies- protect the body against disease 5.pigments- molecules of color-hemoglobin, melanin, chlorophyll You can find proteins in such foods as meats and fish
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Proteins the basic subunit (building block) of a protein is called an amino acid each amino acid has 4 parts around a central carbon atom:
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Proteins A dipeptide is formed when there are 2 amino acids linked (see picture below). A polypeptide is formed when 3 or more amino acids (a.k.a. peptides) are linked together.
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C. Lipids: * contains C, H, and O * no fixed ratio of atoms ex: fats and oils * found in cell membrane * also used for high-energy storage * all lipids have two separate building blocks: 1.1 glycerol- an alcohol with 3 -OH groups in its molecule 2.3 fatty acids- a chain of carbon atoms to which hydrogen atoms are bonded; also has a carboxyl group (carboxyl=acids) at one end of the chain.
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3 fatty acids and one glycerol make 1 lipid molecule
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D. Nucleic Acids: * contains C, H,O,N, and P (phosphorous) and sometimes (S) sulfur * carries the genetic code * building blocks are called nucleotides * there are two types of nucleic acids ex. DNA and RNA
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Nucleic Acids DNA-deoxyribonucleic acid * found only in the nucleus * shape of a double helix RNA-ribonucleic acid (will be taught in detail in packet #20) * found all over the cell * 3 types * shape varies according to the type
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ENZYMES used to regulate the rate (speed) of chemical reactions * all enzymes are proteins * each chemical reaction in an organism requires its own specific enzyme (each chemical that is worked on by an enzyme is called a substrate) * each enzyme can also be called an ORGANIC CATALYST * enzymes are never changed by their reactions!
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Each enzyme has a specific area for linking up with its own specific substrate. This is called an ACTIVE SITE THE LOCK AND KEY MODEL 1.) an enzyme and substrate that are compatible link up at the ACTIVE SITE. 2.) This forms the ENZYME-SUBSTRATE COMPLEX where the enzyme goes to work (can put together or take apart a substrate.) 3.) the enzyme and products separate: the enzyme is ready to work on another substrate.
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Draw Enzyme Action:
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Interactive
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Enzymes remember all enzymes are proteins * sometimes they need "helpers"; these helpers are called COENZYMES (a.k.a. VITAMINS) enzymes are named for the chemicals that they "go to work" on…….. 1.) enzyme names always end in -ASE ex. LIPASE MALTASE LACTASE 2.) the first part is what their substrate is Cartoon
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FACTORS THAT INFLUENCE (affect) ENZYME ACTION: 1.temperature: * the temperature at which enzymes are most effective is called the optimum temperature. * If it gets too hot, the enzyme falls apart (called denatures) then it no longer works (like when you get a very high fever)
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FACTORS THAT INFLUENCE (affect) ENZYME ACTION 2. pH (the ph scale) the measure of how acidic or basic something is The pH at which enzymes are most effective is called the optimum pH
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FACTORS THAT INFLUENCE (affect) ENZYME ACTION 3. amounts of enzymes and substrates * adding more of either the enzyme or substrate will increase the rate of the reaction...until you reach a point where the enzyme cannot work any faster- then the activity level of enzyme action levels off.
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