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Name______________________ Select Cumulative Review -- IB Year I Semester I – December 2009 “Select” means key concepts are being emphasized. In other words, this review is not all inclusive; rather its intent is to give you specific material to focus on. This final exam covers the following topics in the IB syllabus (the IB study guide book will help you tremendously with this cumulative exam). 0.0 Themes of Biology 1 Statistics 2.1 Cell Theory 2.2 Prokaryotic Cells 2.3 Eukaryotic Cells 2.4 Membranes **Metric System 2.5 Cell Division Sizes of “stuff”- bacteria, Viruses, organelle, etc 3.1 Chemical Elements and Water 3.1A Acids, Bases and pH 3.2 Carbohydrates, Lipids, and Proteins 3.3 Enzymes 3.7 Cell Respiration 3.8 Photosynthesis 7.5 Proteins 7.6 Enzymes (further study) 8.1 Cell Respiration (further study) 8.2 Photosynthesis (further study) Topic 1: Cells 1.1 Cell Theory 1) What are the three components of the cell theory? Give two examples of exceptions to the cell theory. 2) Is a virus a cell? What are viruses made of? 3) Where do all cells come from? 4) List three advantages of using a light microscope to examine cells. 5) Define resolution and magnification. 6) What are two advantages of using an electron microscope? 7) How does an SEM differ from a TEM? 1.2 Prokaryotic cells 8) Draw a generalized prokaryotic cell and label cell wall, plasma membrane, cytoplasm, ribosomes and DNA. 1.3 Eukaryotic cells 9) Draw a generalized animal cell and label ribosomes, rough ER, lysosome, golgi apparatus, mitochondrion and nucleus. Also know the function for each of the structures listed above. 1.4 Membranes 10) Draw and label the fluid mosaic model of a plasma membrane. Show phospholipid bilayer, cholesterol, glycoproteins, integral and peripheral proteins. 11) Differentiate between diffusion and osmosis. 12) Know the difference between the hydrophilic and hydrophobic parts of the plasma membrane 1.5 Cell division 13) What are the steps of the cell cycle? 14) List and describe what occurs in the four phases of mitosis. Topic 2: Chemistry of Life 2.1 Chemical elements and water 1) Outline four properties of water that are significant to living organisms and draw how water molecules are bonded together. 2.2 Carbohydrates, lipids and proteins 2) Draw the basic structures of the following: amino acid, glucose, ribose, fatty acid, and glycerol. 2.3 Enzymes 3) Define the terms enzyme and substrate. 4) How does the ‘induced fit’ model help explain enzyme substrate specificity? 5) Be able to interpret a graph that plots enzyme activity against another variable such as temperature, ph, etc. 2.7 Cell Respiration 6) Define oxidation and reduction. 7) Define cell respiration. 8) Name the two carrier molecules involved in cell respiration. 9) What is “Step #1” for all types of cell respiration? 10) What is the net gain of ATP from glycolysis? 11) Which molecule enters the Krebs Cycle from the Link Reaction? 12) What does one turn of the Krebs Cycle yield? 2.8 Photosynthesis 13) What is the goal of photosynthesis? 14) What are the 2 main parts of photosynthesis? 15) What is the main photosynthetic pigment? Where is it found? 16) What are the differences in absorption of red, blue, and green light by chlorophyll? 17) Explain why water molecules are so important in photosynthesis. 6.5 Proteins 1) What is the “building block” of protein? 2) What are proteins made of? 3) List the four levels of protein structure. 4) Be able to identify each of the four level of protein structure from a picture. 5) Differentiate between fibrous and globular proteins. 6) What determines whether or not an amino acid is polar or not? 7) Which cellular membrane are proteins found embedded in? 8) List six functions of proteins and give an example for each. 6.6 Enzymes 9) Differentiate between endergonic and exergonic reactions. 10) How do enzymes affect activation energy? 11) How is the induced fit model a modification of the lock and key model? 12) Explain the two types of enzyme inhibition. 13) What is allostery? 7.1 Cell respiration 1) Draw and label parts of a mitochondria. 2) What is the goal of chemiosmosis? How does it work? 3) Explain in detail the products of cellular respiration and how ATP are formed. 7.2 Photosynthesis 4) Draw the structure of a chloroplast and label the following parts: a. Stroma b. Inner membrane c. Outer membrane d. Granum 5) Explain the light-dependent reaction. Including Photophosphorylation in terms of chemiosmosis (ETC to make ATP and NADPH). 6) Explain the light-independent reaction. Include the roles of ribulose bisphosphate (RuBP) carboxylase, reduction of glycerate 3-phosphate (OP) to triose phosphate (TP), NADPH + H, ATP, regeneration of RuBP and synthesis of carbohydrates (glucose). 7) Draw the action spectrum of photosynthesis and explain the relationship between the action spectrum and the absorption spectrum of photosynthetic pigments in green plants. 8) Discuss the concept of limiting factors with reference to light intensity, temperature, and concentration of carbon dioxide. 9) What are the products of the light-dependent and light-independent reactions? ESSAYS Look over all old potential essay questions. I will choose a few from these for both short answer and essay questions.