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Transcript
Biology CP 2015 Marking Period 2 Quarterly Exam Review Sheet This review sheet is to be used as a guide to help you focus your studies for the MP2 Quarterly examination. Note: This review sheet is not intended to be all-inclusive. Unit 2B: Basic Biochemistry Four most common elements in living things (CHON) Phosphorus and sulfur are also found in some important biological molecules (CHONPS) Importance of water in dehydration synthesis & hydrolysis Organic vs. Inorganic – be able to identify examples Be able to recognize structures/formulas of monomers, dimers and polymers of carbs, proteins and nucleic acids What elements are found in each category of organic compounds Identify examples of food sources for each category of organic compounds Be able to interpret ‘Nutrition Facts’ labels (from prepared foods) Sequence of energy molecules utilized in a cell [ATPglucosepolysaccharide lipids proteins] Hydrolysis vs. (dehydration) synthesis: o Definition--Reactants and products of each process for carbohydrates, lipids and proteins and nucleic acids. o Which one builds polymers from monomers and which one breaks down polymers into monomers o Which one has water as a reactant; which one has water as a product Carbohydrates: o simple sugars or monosaccharides vs. disaccharides vs. polysaccharides o glucose units are used to form starch, glycogen and cellulose polysaccharides o function as energy molecules: glucose, glycogen, and starch o function as structural molecules: cellulose o importance as short-term energy storage o What is “carbo-loading” AND why do athletes do this? Lipids: o Distinguish between structural formulas of unsaturated/saturated triglycerides o Saturated vs. unsaturated: which are ‘heart healthier”? Fats (animals) vs. oils (plants) o Different functions of lipids: function as long-term energy storage molecules function as structural molecules-in cell membranes (phospholipids and cholesterol) Nucleic acids: o nucleotides, subunits of nucleotides o DNA and RNA o Store genetic information o Central dogma of molecular biology: DNARNAproteinstraits o function as energy molecules-ATP (composed of only one nucleotide) Proteins: o amino acid structure, dipeptides, peptide bonds, peptides vs. proteins o “Form leads to function” o describe the general differences between various proteins and amino acids o a very wide variety of proteins exist (for both structure & function in cells) o enzymes are proteins o denaturation 1 Type of Organic Compound Carbohydrates Lipids Building blocks Basic monomer: monosaccharide Typical structure of fats/oils: Triglycerides General Functions Examples Elements Short term energy storage Monomers: Monosaccharides Disaccharides CHO 1:2:1 Cellulose structural Polymers: Starch Cellulose Glycogen Long term energy storage Good Food Sources Pasta, bread, fruits, vegetables, candy, soda CHO Animal fat, oils, CHON Animal meats, nuts, beans, dairy CHONP All living cells contain DNA & RNA!!! Fats and oils phospholipids Phospholipid s – cell membrane structure Glycerol + 3 fatty acids Proteins Basic monomer: Amino acids Central Carbon, Carboxyl group, Amino group, Lone Hydrogen, Radical group Nucleic Acids Basic monomer: nucleotides sugar, phosphate, N base Speed up chemical reactions (enzymes) Structure and various functions Stores the genetic information Monomers: Amino acids Polymers: polypeptide Monomers: nucleotides Polymers: Nucleic acids- DNA and RNA 2 Chemical Reactions and Enzymes: o Endergonic vs. Exergonic reactions (describe and recognize a graph) o How enzymes function to facilitate reactions o Substrate(s), active site, product(s) *be able to recognize on diagram o Activation energy – definition, importance when discussing enzymes o Catalyst o Effect of changes in temp and pH on enzyme activity o Why denatured enzymes don’t work (Remember: form leads to function!) o How enzymes are named (-ase) Acids and Bases: o General definition of an acid and a base in terms of pH and [H+] and [OH-] o What it means for a solution to be neutral, in terms of [H+] and [OH-] o pH scale o examples of common acids & bases Practice making visual representations of Acid, Base (Alkaline) and Neutral Solutions in ACID NEUTRAL BASE HCl in water NaCl in water NaOH in water H+ OH- H+ OH- H+ OH- H+ H+ H+ ClCl- Cl- Na+ Na+ Na+ Cl- Cl- Cl- Na+ Na+ Na+ OH- OH- OH- 3 Unit 2C: Chemistry of Ecology In an ecosystem, matter is RECYCLED; energy flows but is not recycled (and is ultimately lost as heat) Biogeochemical cycles: Water cycle, Carbon/Oxygen cycle, and Nitrogen cycle What type of organisms drive the nitrogen cycle? Summarize the reactions of cellular respiration & photosynthesis, be able to recognize overall equations for each What do plants use glucose for? What do animals use glucose for? How do organisms get energy How photosynthesis and cellular respiration are interdependent and critical to the carbon/oxygen cycles Feeding strategies/trophic levels o Producer, primary/secondary/tertiary consumer, decomposer, herbivore, carnivore, omnivore Symbiotic relationships: mutualism, commensalisms, parasitism – be able to recognize examples Predation/herbivory Competition How a change in the size of the population of one organism in an ecosystem may affect another population Importance of decomposers in an ecosystem Unit 2E: Human Impact Biodiversity Biological Magnification Sustainable Development Renewable vs. Non Renewable Carbon/Ecological Footprint Unit 3A: Origins of Life Origins of the Earth o Big Bang Theory, Formation of the Oceans o Composition of the Atmosphere and conditions of Primitive Earth Theory of Chemical Evolution: Oparin & Haldane and Miller & Urey’s Experiment Importance of photosynthesis in oxygen becoming a part of earth’s atmosphere (incl. ozone layer) Which came first: Prokaryotes or eukaryotes? Autotrophs or heterotrophs? Unicellular or Multicellular? The Heterotroph Hypothesis o Simple organic molecules complex polymers protocells primitive cells 4 Evidence about the Past o Historical perspective of major earth events; Geological Clock/timeline o Diversity of Life Eukaryotic vs. prokaryotic Unicellular vs. multicellular Heterotrophic vs. Autotrophic Aerobic vs. Anaerobic Unit 3B: Cell Membrane & Transport Structure and function of cell membranes Impermeable, permeable, selectively permeable What types of materials move into or are removed from cells? Define a solution, solvent and solute Passive vs. active transport Osmosis, Diffusion, Facilitated transport, endocytosis, exocytosis Concentration of solutes and solvent in a solution Identify isotonic, hypotonic and hypertonic solutions Given a specific example, identify the type of solution in relation to a cell, predict the direction of water movement and the result on the cell. Practice examples using %’s. 5
