Photosynthesis
... Some of the other energy produced during the electron transport chain goes to split water into hydrogen and oxygen molecules. Oxygen is released back into the air The two hydrogen ions are trapped by a coenzyme in the chloroplasts called NADP and forms NADPH2 which will be used on the Calvin Cycle ...
... Some of the other energy produced during the electron transport chain goes to split water into hydrogen and oxygen molecules. Oxygen is released back into the air The two hydrogen ions are trapped by a coenzyme in the chloroplasts called NADP and forms NADPH2 which will be used on the Calvin Cycle ...
Ch9 Review Sheet - Canvas by Instructure
... 19. Red blood cells do not contain mitochondria. Which stage or stages of sugar breakdown can take place in these cells? Explain your answer. 20. How is the process by which your body extracts energy from food similar to how a car's engine extracts energy from fuel? How is it different? 21. Explain ...
... 19. Red blood cells do not contain mitochondria. Which stage or stages of sugar breakdown can take place in these cells? Explain your answer. 20. How is the process by which your body extracts energy from food similar to how a car's engine extracts energy from fuel? How is it different? 21. Explain ...
Bacterial Physiology Lec-8 Catabolism: Tricarboxylic acid cycle
... Many bacteria have electron transport chains that can operate with exogenous electron acceptors other than O2. The major electron acceptors are nitrate , sulfate and CO2 but metals and a few organic molecules can also be reduced. Some bacteria can use nitrate as the electron acceptor at the end of t ...
... Many bacteria have electron transport chains that can operate with exogenous electron acceptors other than O2. The major electron acceptors are nitrate , sulfate and CO2 but metals and a few organic molecules can also be reduced. Some bacteria can use nitrate as the electron acceptor at the end of t ...
Cellular Respiration NOTES
... they eat (or in the case of plants in the food they produce through photosynthesis) into a form of energy that is easy to use – ATP. Plants must also undergo cellular respiration to make ATP. ATP fuels all chemical reactions & process in living organisms. Cellular respiration 3(and ½) stages: 1) Gly ...
... they eat (or in the case of plants in the food they produce through photosynthesis) into a form of energy that is easy to use – ATP. Plants must also undergo cellular respiration to make ATP. ATP fuels all chemical reactions & process in living organisms. Cellular respiration 3(and ½) stages: 1) Gly ...
Topic 2: Cell (HL Only)
... 4. Absorption of light by photosystems generates excited electrons. 193-196 5. Photolysis of water generates electrons for use in the light-dependent reactions. 194-196 6. Transfer of excited electrons occurs between carriers in thylakoid membranes. 196-198 7. Excited electrons from Photosystem II a ...
... 4. Absorption of light by photosystems generates excited electrons. 193-196 5. Photolysis of water generates electrons for use in the light-dependent reactions. 194-196 6. Transfer of excited electrons occurs between carriers in thylakoid membranes. 196-198 7. Excited electrons from Photosystem II a ...
Photosynthesis
... ○ 1. The absorption of sunlight and water (H2O) ○ 2. The removal of hydrogen atoms from water using the energy of sunlight ○ 3. The use of this hydrogen to power ATP production in each thylakoid’s ATP Synthase. B) The Calvin Cycle ○ 1. The absorption of CO2 ○ 2. The use of ATP to power the product ...
... ○ 1. The absorption of sunlight and water (H2O) ○ 2. The removal of hydrogen atoms from water using the energy of sunlight ○ 3. The use of this hydrogen to power ATP production in each thylakoid’s ATP Synthase. B) The Calvin Cycle ○ 1. The absorption of CO2 ○ 2. The use of ATP to power the product ...
Crossword November
... 3. ____ space has high H+ concentration in the mitochondria 4. Regulation of enzyme by the binding of a molecule at a non active site 7. ______ level phosphorylation, the process enzymes make ATP from ADP and another molec ule 9. Stacks of thylakoids 13. Where glycolysis occurs ...
... 3. ____ space has high H+ concentration in the mitochondria 4. Regulation of enzyme by the binding of a molecule at a non active site 7. ______ level phosphorylation, the process enzymes make ATP from ADP and another molec ule 9. Stacks of thylakoids 13. Where glycolysis occurs ...
Solutions to Questions in the Cellular Respiration booklet
... #3. Movement; production of proteins; active transport: cellular division #4. Aerobic respiration is when oxygen is used within the mitochondrion to produce 36 ATP molecules and the waste products of water and carbon dioxide. #5. Glycolysis and the intermediate step occur in the cytoplasm. While Kre ...
... #3. Movement; production of proteins; active transport: cellular division #4. Aerobic respiration is when oxygen is used within the mitochondrion to produce 36 ATP molecules and the waste products of water and carbon dioxide. #5. Glycolysis and the intermediate step occur in the cytoplasm. While Kre ...
Notes on Photosynthesis
... biochemical pathway involving many steps B. This complex reaction can be broken down into two reaction systems --- light dependent & light independent or dark reactions ...
... biochemical pathway involving many steps B. This complex reaction can be broken down into two reaction systems --- light dependent & light independent or dark reactions ...
Chapter 5 - Missouri State University
... ________________Cycle to the ETC. Cytochrome receives a pair of ___________________. –_____________________ reduced, then oxidized as electrons are transferred. ...
... ________________Cycle to the ETC. Cytochrome receives a pair of ___________________. –_____________________ reduced, then oxidized as electrons are transferred. ...
221_exam_2_2003
... clear that microbes account for most of the “fixed” carbon on earth. Consequently, we have also discovered that microbes have evolved several mechanisms for “fixing” carbon dioxide. Briefly discuss three mechanisms of carbon dioxide fixation found in ...
... clear that microbes account for most of the “fixed” carbon on earth. Consequently, we have also discovered that microbes have evolved several mechanisms for “fixing” carbon dioxide. Briefly discuss three mechanisms of carbon dioxide fixation found in ...
Cellular Respiration
... Electrons transferred to electron carriers, NAD+ and FAD+ Glycolysis and Kreb’s cycle Electrons then passed through an electron transport chain. The energy from the electrons will be used to pump protons. The energy from the diffusion of protons will be used to make ATP. ...
... Electrons transferred to electron carriers, NAD+ and FAD+ Glycolysis and Kreb’s cycle Electrons then passed through an electron transport chain. The energy from the electrons will be used to pump protons. The energy from the diffusion of protons will be used to make ATP. ...
Biology-1 Sample Questions for Exam Two Facilitated diffusion
... b. Chlorophyll a absorbs green light. c. Chlorophyll b primarily uses green light as the source of energy for photosynthesis. d. Green helps plants blend into their environment as a sort of camouflage. e. All photosynthetic pigments are colored green. 18. Clusters of light-gathering pigments in a ph ...
... b. Chlorophyll a absorbs green light. c. Chlorophyll b primarily uses green light as the source of energy for photosynthesis. d. Green helps plants blend into their environment as a sort of camouflage. e. All photosynthetic pigments are colored green. 18. Clusters of light-gathering pigments in a ph ...
Prof. Kamakaka`s Lecture 10 Notes
... Hydrolysis of ATP has a high negative DG- -30.5kJ/mol. This means that ATP has a strong tendency to transfer terminal phosphate to water. ATP hydrolysis in water only produces heat In cells ATP hydrolysis involves covalent participation of ATP. ATP provides energy by grp transfer (Substrate Level Ph ...
... Hydrolysis of ATP has a high negative DG- -30.5kJ/mol. This means that ATP has a strong tendency to transfer terminal phosphate to water. ATP hydrolysis in water only produces heat In cells ATP hydrolysis involves covalent participation of ATP. ATP provides energy by grp transfer (Substrate Level Ph ...
Biology-1 Sample Questions for Exam Two Facilitated diffusion
... b. Chlorophyll a absorbs green light. c. Chlorophyll b primarily uses green light as the source of energy for photosynthesis. d. Green helps plants blend into their environment as a sort of camouflage. e. All photosynthetic pigments are colored green. 18. Clusters of light-gathering pigments in a ph ...
... b. Chlorophyll a absorbs green light. c. Chlorophyll b primarily uses green light as the source of energy for photosynthesis. d. Green helps plants blend into their environment as a sort of camouflage. e. All photosynthetic pigments are colored green. 18. Clusters of light-gathering pigments in a ph ...
Bacterial Metabolism
... the electron carriers • Membrane bound carriers transfer electrons (redox reactions) • The final electron acceptor completes the terminal step (ex. Oxygen) ...
... the electron carriers • Membrane bound carriers transfer electrons (redox reactions) • The final electron acceptor completes the terminal step (ex. Oxygen) ...
Slide 1
... The process in which the energy stored in a glucose molecule is released by oxidation. H+ atoms are lost by glucose and gained by oxygen. ...
... The process in which the energy stored in a glucose molecule is released by oxidation. H+ atoms are lost by glucose and gained by oxygen. ...
Photosynthesis unit notes
... many steps This complex reaction can be broken down into two reaction systems --- light dependent & light independent or dark reactions ...
... many steps This complex reaction can be broken down into two reaction systems --- light dependent & light independent or dark reactions ...
3.-electron-transport-chain-ATP-synthesis
... Electron Transport Chain 3 things to note: • MOVEMENT OF ELECTRONS High energy electrons pass from one protein molecule in the chain to another • MOVEMENT OF HYDROGEN IONS The energy received allows the proteins to pump hydrogen across the membrane, so that they can be pumped back across by ATP ...
... Electron Transport Chain 3 things to note: • MOVEMENT OF ELECTRONS High energy electrons pass from one protein molecule in the chain to another • MOVEMENT OF HYDROGEN IONS The energy received allows the proteins to pump hydrogen across the membrane, so that they can be pumped back across by ATP ...
LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034
... 5. What are ketone bodies? 6. Give the energy value of one ATP molecule. 7. What is meant by β - oxidation? 8. What are porphyrins? 9. Mention the role of glutamate dehydrogenase. 10. What are primary metabolites? Part - B (8 x 5 = 40) Answer any five of the following questions, each within 350 word ...
... 5. What are ketone bodies? 6. Give the energy value of one ATP molecule. 7. What is meant by β - oxidation? 8. What are porphyrins? 9. Mention the role of glutamate dehydrogenase. 10. What are primary metabolites? Part - B (8 x 5 = 40) Answer any five of the following questions, each within 350 word ...
Cellular Respiration
... Step 2 – Energy harvest fructose bisphosphate splits into two 3 C molecules of glyceraldehyde 3-phosphate (G3P or PGAL) each G3P molecule goes through series of reactions that convert it into pyruvate (pyruvic acid) 2 ATPs are made per G3P for a total of 4 – however, net gain is only 2 ATPs During t ...
... Step 2 – Energy harvest fructose bisphosphate splits into two 3 C molecules of glyceraldehyde 3-phosphate (G3P or PGAL) each G3P molecule goes through series of reactions that convert it into pyruvate (pyruvic acid) 2 ATPs are made per G3P for a total of 4 – however, net gain is only 2 ATPs During t ...
Chapter 9: Cellular Respiration and Fermentation - Biology E
... 35. For aerobic respiration to continue, the cell must be supplied with oxygen, the ultimate electron acceptor. The electron acceptor in fermentation is an organic molecule such as pyruvate (in lactic acid fermentation) or acetaldehyde (in alcohol fermentation). 36. Explain how alcohol fermentation ...
... 35. For aerobic respiration to continue, the cell must be supplied with oxygen, the ultimate electron acceptor. The electron acceptor in fermentation is an organic molecule such as pyruvate (in lactic acid fermentation) or acetaldehyde (in alcohol fermentation). 36. Explain how alcohol fermentation ...
notes - is234
... All organisms need chemical energy that comes from carbon compounds in food to carry out their life activities. Almost all of the energy in carbon compounds comes from the sun. The sun is the ultimate source of energy for all living things. Plants, algae, and some prokaryotes carry out Photosynthesi ...
... All organisms need chemical energy that comes from carbon compounds in food to carry out their life activities. Almost all of the energy in carbon compounds comes from the sun. The sun is the ultimate source of energy for all living things. Plants, algae, and some prokaryotes carry out Photosynthesi ...
Chem 1151
... The electron configuration [Kr] describes the electron configuration for all of the following except A. **B. C. D. ...
... The electron configuration [Kr] describes the electron configuration for all of the following except A. **B. C. D. ...