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Topic 8.3 (AHL) – PhotosynthesisUnderstandings, Applications and Skills (This is what you will be assessed on)StatementGuidance8.3.U1Light-dependent reactions take place in the intermembrane space of the thylakoids.*8.3.U2Light-independent reactions take place in the stroma.8.3.U3Reduced NADP and ATP are produced in the light-dependent reactions.8.3.U4Absorption of light by photosystems generates excited electrons.8.3.U5Photolysis of water generates electrons for use in the light-dependent reactions.8.3.U6Transfer of excited electrons occurs between carriers in thylakoid membranes.8.3.U7Excited electrons from Photosystem II are used to contribute to generate a proton gradient.8.3.U8ATP synthase in thylakoids generates ATP using the proton gradient.8.3.U9Excited electrons from Photosystem I are used to reduce NADP.8.3.U10In the light-independent reactions a carboxylase catalyses the carboxylation of ribulose bisphosphate.8.3.U11Glycerate 3-phosphate is reduced to triose phosphate using reduced NADP and ATP.8.3.U12Triose phosphate is used to regenerate RuBP and produce carbohydrates.8.3.U13Ribulose bisphosphate is reformed using ATP.8.3.U14The structure of the chloroplast is adapted to its function in photosynthesis.8.3.A1Calvin’s experiment to elucidate the carboxylation of RuBP.8.3.S1Annotation of a diagram to indicate the adaptations of a chloroplast to its function.* ‘across the thylakoid membrane’ is a more accurate statement as reactions occur on either side of the integral proteins.Recommended resources:Mrs. Tyler’s Flipped VideosAllott, Andrew.?Biology: Course Companion.?S.l.: Oxford UP, 2014. Print.Review from SL1. Write the chemical equation for photosynthesis.2. Label the following structures on the chloroplast: thylakoid, granum, stroma, inner membrane, outer membrane, lamellae, starch granule, and thylakoid (inner membrane) space.3. What is the name of the primary pigment that absorbs light energy in the chloroplast? What colors is this pigment good at absorbing?8.3.U1 Light-dependent reactions take place in the intermembrane space of the thylakoids. & 8.3.U4 Absorption of light by photosystems generates excited electrons. & 8.3.U5 Photolysis of water generates electrons for use in the light-dependent reactions. & 8.3.U6 Transfer of excited electrons occurs between carriers in thylakoid membranes. & 8.3.U3 Reduced NADP and ATP are produced in the light-dependent reactions. & 8.3.U7 Excited electrons from Photosystem II are used to contribute to generate a proton gradient. & 8.3.U8 ATP synthase in thylakoids generates ATP using the proton gradient. & 8.3.U9 Excited electrons from Photosystem I are used to reduce NADP.Overview (brief summary) of light dependent reactions.Overview (brief summary of light independent reactions.Light Dependent ReactionsWhere do the light dependent reactions occur?What is a photosystem?What happens when a photosystem absorbs light energy?Explain the following four steps of the light dependent reactions:A. PhotoactivationB. Electron Transport ChainC. Chemiosmosis/Photophosphorylation (Define each)D. Reduction of NAD+ to NADPHE. Photolysis (Define this term as well).]Annotate the diagram below to explain the light-dependent reactions of photosynthesis. Include: photolysis, photophosphorylation (and chemiosmosis), movement of electrons, generation of a H+ gradient using a proton pump, reduction of NADP+ by ferredoxin.Explain what happens to an electron when it is excited by photons of light. How does each photosystem replace their lost electron?Photosystem I –Photosystem II –Identify the two products of the light-dependent reactions which are carried through to fuel the light- independent reactions.Fill in the missing blanks in the Z scheme model to show what goes in/out of each photosystem.57404024307800024409401468120062033159163058.3.U2 Light-independent reactions take place in the stroma. & 8.3.U10 In the light-independent reactions a carboxylase catalyses the carboxylation of ribulose bisphosphate. & 8.3.U11 Glycerate 3-phosphate is reduced to triose phosphate using reduced NADP and ATP. & 8.3.U12 Triose phosphate is used to regenerate RuBP and produce carbohydrates. & 8.3.U13 Ribulose bisphosphate is reformed using ATP.Where do the light independent reactions (Calvin Cycle) occur?What is the energy source(s) that is used to fuel the conversion of carbon dioxide to glucose here?State the name of the 5-carbon compound present in the Calvin cycle. Define carboxylation. State the name of the highly abundant enzyme responsible for fixing CO2.Explain each of the following steps of the light independent reactions:A. Carboxylation of RuBPB. Reduction of Glycerate 3-Phosphate (G3P)C. Regeneration of RuBPHow many turns of the Calvin Cycle does it take to make one glucose molecule?In the space below, draw a diagram to explain the cycle of reactions that occur in the light-independent stages of photosynthesis. Include: carboxylation of RuBP to glycerate-3-phosphate by rubisco, reduction to triose phosphate, formation of glucose phosphate and reformation of RuBP. 8.3.U14 The structure of the chloroplast is adapted to its function in photosynthesis. & 8.3.S1 Annotation of a diagram to indicate the adaptations of a chloroplast to its function.Label a diagram showing the structure of the mitochondrion.Include: thylakoids, stroma, granum, inner and outer membranes, starch granules, ribosomes, DNA.6171565211518500466979030105350033648653639185002040890384873500left36512500032600901016000right22796500left1016000Label a diagram of a chloroplast, as seen under a TEM. Include: thylakoids, thylakoid (inner membrane) space, stroma, granum, outer membrane, starch plete the table below with the functions of the structures of the chloroplast. Explain how each structure adapted to help maximize efficiency of photosynthesis.Outer Membrane – Thylakoid membrane –Grana (stacks) –Inner-membrane space inside thylakoids –Stroma – Chloroplast DNA and ribosomes – (n/a)Certain features of a chloroplast indicate it’s probable origin as a prokaryote cell.Identify the other key structures that indicate the probable origin of a chloroplast. Explain how the size and structures identified above provide evidence of the chloroplast’s prokaryote origin. 8.3.A1Calvin’s experiment to elucidate the carboxylation of RuBP.Outline the method used by Calvin to discover the carboxylation of RuBP (Lollipop Experiment).Explain, briefly, how the separation of the carbon compounds allowed Calvin to discover the carboxylation of RuBP.List four factors that can affect the rate of photosynthesis, and briefly explain why.Data AnalysisThe rate of photosynthesis in the marine seagrass, Zostera marina, was investigated under a range of pH conditions. After a period of darkness, the plants were illuminated at a constant light intensity at 15°C and the rate of photosynthesis was measured. Zostera marina can use both dissolved carbon dioxide (CO2) and hydrogen carbonate ions for photosynthesis.[Source: Plant physiology by AMERICAN SOCIETY OF PLANT PHYSIOLOGISTS. Copyright 2008 Reproduced with permission of AMERICAN SOCIETY OF PLANT BIOLOGISTS in the format CD ROM via Copyright Clearance Center.] State the carbon dioxide concentration at pH 7.2. (1) Calculate the percentage decrease in the rate of photosynthesis from pH 7 to pH 7.5. (1) Outline the relationship between pH and the rate of photosynthesis. (2)Suggest how Zostera marina can perform photosynthesis even at very low carbon dioxide concentrations. (1)Based on the information and data provided, discuss the role of one limiting factor, other than carbon dioxide, and suggest how this would affect the rate of photosynthesis. (2) ................
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