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Place numbers beside the statements below to indicate the order of events occurring in the light reactions.
I know for sure that 1 and 8 are correct, but the rest I’m not too confident about. I attached both my work and a blank copy.
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- The Overall Free Energy Change for Photosynthetic NADP+ Reduction What is the overall free energy change (G) for noncyclic photosynthetic electron transport? 4 (700-nm photons) + 4 (680-nm photons) + 2 H2O + 2 NADP+O2 + 2 NADPH + 2H+Plants containing only chlorophyll b are exposed to radiation with the following wavelengths: 10nm (x- rays), 450nm (blue light), 670nm (red light), and 800nm (infrared light). Which plants harness the most energy for photosynthesis? X-ray irradiated plants Blue light irradiated plants Red light irradiated plants Infrared irradiated plantsAs you learned in this chapter, cell membranes arc required for electron transfer phosphorylation. Thylakoid membranes in chloroplasts serve this purpose in photosynthetic eukaryotes. Prokaryotic cells do not have this organelle, but many are photosynthesizers. How do you think they carry out the light-dependent reactions, given that they have no chloroplasts?
- Mitochondrial Abnormalities in Tetralogy of Fallot Tetralogy of Fallot (TF) is a genetic disorder in which heart malformations result in abnormal blood circulation, so oxygen does not reach body cells as it should. With insufficient oxygen to accept electrons at the end of miotchondrial electron transfer chains, too many free radicals form. This damages the mitochondriaand the cells. In 2004, Sarah Kuruvilla studied mitochondria in the heart muscle of TF patients. Some of her results are shown in FIGURE 7.13. Patient (age) SPO2(%) Mitochondrial Abnormalities in TF Number Shape Size Broken 1(5) 55 + + 2(3) 69 + + 3(22) 72 + + 4(2) 74 + + 5(3) 76 + + + 6(2.5) 78 + + + 7(1) 79 + + 8(12) 80 + + 9(4) 80 + + 10(B) 83 + + 11(20) 85 + + 12(2.5) 89 + + FIGURE 7.13 Mitochondrial changes in tetralogy of Fallot (TF). (A) Normal heart muscle. Many mitochondria between the fibers provide muscle cells with ATP for contraction. (B) Heart muscle from a person with TF has swollen, broken mitochondria. (C) Types of mitochondrial abnormalities in TF patients. SPO2 is oxygen saturation of the blood. A normal value of SPO2 is 96%. Abnormalities are marked +. 3. Can you make any correlations between blood oxygen content and mitochondrial abnormalities in these patients?Mitochondrial Abnormalities in Tetralogy of Fallot Tetralogy of Fallot (TF) is a genetic disorder in which heart malformations result in abnormal blood circulation, so oxygen does not reach body cells as it should. With insufficient oxygen to accept electrons at the end of miotchondrial electron transfer chains, too many free radicals form. This damages the mitochondriaand the cells. In 2004, Sarah Kuruvilla studied mitochondria in the heart muscle of TF patients. Some of her results are shown in FIGURE 7.13. Patient (age) SPO2(%) Mitochondrial Abnormalities in TF Number Shape Size Broken 1(5) 55 + + 2(3) 69 + + 3(22) 72 + + 4(2) 74 + + 5(3) 76 + + + 6(2.5) 78 + + + 7(1) 79 + + 8(12) 80 + + 9(4) 80 + + 10(B) 83 + + 11(20) 85 + + 12(2.5) 89 + + FIGURE 7.13 Mitochondrial changes in tetralogy of Fallot (TF). (A) Normal heart muscle. Many mitochondria between the fibers provide muscle cells with ATP for contraction. (B) Heart muscle from a person with TF has swollen, broken mitochondria. (C) Types of mitochondrial abnormalities in TF patients. SPO2 is oxygen saturation of the blood. A normal value of SPO2 is 96%. Abnormalities are marked +. 2. What percentage of the TF patients had mitochondria that were abnormal in size?Mitochondrial Abnormalities in Tetralogy of Fallot Tetralogy of Fallot (TF) is a genetic disorder in which heart malformations result in abnormal blood circulation, so oxygen does not reach body cells as it should. With insufficient oxygen to accept electrons at the end of miotchondrial electron transfer chains, too many free radicals form. This damages the mitochondriaand the cells. In 2004, Sarah Kuruvilla studied mitochondria in the heart muscle of TF patients. Some of her results are shown in FIGURE 7.13. Patient (age) SPO2(%) Mitochondrial Abnormalities in TF Number Shape Size Broken 1(5) 55 + + 2(3) 69 + + 3(22) 72 + + 4(2) 74 + + 5(3) 76 + + + 6(2.5) 78 + + + 7(1) 79 + + 8(12) 80 + + 9(4) 80 + + 10(B) 83 + + 11(20) 85 + + 12(2.5) 89 + + FIGURE 7.13 Mitochondrial changes in tetralogy of Fallot (TF). (A) Normal heart muscle. Many mitochondria between the fibers provide muscle cells with ATP for contraction. (B) Heart muscle from a person with TF has swollen, broken mitochondria. (C) Types of mitochondrial abnormalities in TF patients. SPO2 is oxygen saturation of the blood. A normal value of SPO2 is 96%. Abnormalities are marked +. 1. In this study, which abnormality was most strongly associated with TF?
- Diagram 4: The Light Reactions of Photosynthesis STROMA dow concentralion Photonystem B Cytch e Photosystem Light omplex Light NADP reductoe NADP NADPH THYLAKOID SPACE igh ooncentration) Cavin Cyle Thylakid menbrane ATP STROMA ow H eone sythase ADP ATP Diagram 4 shows a single thylakoid membrane taken from a chloroplast inside of a leaf cell. The events of the light dependent cycle that take place along the thylakoid membrane are shown. Light energy is captured by O ATP synthase O Photosystems I and II O NADP+ reductase The thylakoid membrane's lipid structures DroviousMAD SPACE Thyld ATP Diogram 4 shows a single thylakoid membrane taken from a chloroplast inside of a leaf cell the light dependent cycle that take place along the thylakoid membrane are sho Water is important to the production of ATP because water will O provide the electrons that flow through the ATP synthase Oprovide the energy for ATP synthase to transfer into the bonds of ATP. flow through ATP synthase allowing for the production of ATP O provide the H that flows through the ATP synthase allowing for the ATP production.Diagram 4: The Light Reactions of Photosymtnes STROMA dow soncentrations Photoeystem PhotoeytmE oomple Light Ligt THYLAKOID SPACE Ohigh concentration) Thylakold membrane ATP wynthase STROMA low H concentration) ADP en from a chloroplast inside of a le the light dependent cyde that take place along the thylakoid membrane a Diagram 4 shows a single thylakoid membrane In photosystem I and II, an electron will O be transferred to ATP be transferred to NADPH lose energy gain energy
- Tpoint Diagram 4: The Light Reactions of Photosynthesis STROMA (low H concentration) Photosystem II Cytochrome complex Photosystem I Light NADP reductase 4 H Light NADP + H NADPH THYLAKOID SPACE (high H concentration) To Calvin Cycle Thylakoid membrane ATP synthase STROMA ADP (low H concentration) ATP Diagram 4 shows a single thylakoid membrane taken from a chloroplast inside of a leaf cell. The events of the light dependent cycle that take place along the thylakoid membrane are shown. Water is important to the production of ATP because water will provide the electrons that flow through the ATP synthase O provide the energy for ATP synthase to transfer into the bonds of ATP. flow through ATP synthase allowing for the production of ATP provide the H* that flows through the ATP synthase allowing for the ATP production.Identify the chemical basis for ApH and AY across the chloroplast thylakoid membrane by dragging the descriptions to their targets. Be sure to notice that the upper arrow iindicates ApH and the lower arrow indicates ΔΨ. ATP synthase complex H+ N ADP + P₁ Light energy ATP H*N Photosystem I/II- Chloroplast N side Aus PN ApH T + Thylakoid membrane HTp H+p Lumen Stroma P side Proton circuit A B High H concentration Low positive charge High positive charge Low H+ concentration Within the image, identify the types of proton translocation by dragging each label to its target. O XH₂ 2H+ + Z 2 H* ZH₂ O XH₂ Z 2H+ ZH₂ 2H+ C A B Proton pump Redox loopDiagram 41 The Light Reactions of Photosynthesis STROMA Poteyte Potayate mples HAD Light HLARO ACE (high ir Carto Thylakold membrane ATP ynthase STROMA ow N concentration) ADP Diagram 4 shows a single thylakoid membrane taken from a chloroplast inside of a leaf cell. The events of the light dependent cycle that take place along the thylakoid membrane are shown. Identify an energy transfer that takes place n Diagram 4. Light energy is directly transferred into the chemical bonds of sugar. O Light energy is directly transferred into the chemical bonds of ATP The energy of the bonds of water are transferred into the chemical bonds of ATP. The energy from an excited electron is transferred into the chemical bonds of NADPH.