Photosynthesis
... 3. have their own ribosomes (more like the ribosomes of prokaryotes) -used to synthesize proteins 4. make their own enzymes required for photosynthesis 5. require CO2 and H2O produce C6H12O6 6. contain chlorophyll (green chemical "traps" sunlight energy) Now let’s look at structure… ...
... 3. have their own ribosomes (more like the ribosomes of prokaryotes) -used to synthesize proteins 4. make their own enzymes required for photosynthesis 5. require CO2 and H2O produce C6H12O6 6. contain chlorophyll (green chemical "traps" sunlight energy) Now let’s look at structure… ...
The light reaction of photosynthesis does not include
... A) heterotrophs photosynthesis uses solar energy to convert inorganics to energy-rich organics; B) respiration breaks down energy-rich organics to synthesize ATP photosynthesis involves the oxidation of glucose; respiration involves the reduction C) of CO2 the primary function of photosynthesis is t ...
... A) heterotrophs photosynthesis uses solar energy to convert inorganics to energy-rich organics; B) respiration breaks down energy-rich organics to synthesize ATP photosynthesis involves the oxidation of glucose; respiration involves the reduction C) of CO2 the primary function of photosynthesis is t ...
Cell Respiration State that oxidation involves the loss of electrons
... molecules of ATP are produced when two molecules of pyruvate are formed. Coupled with the loss of two ATP molecules in phosphorylation, the net gain of ATP in glycolysis is two. The triose phosphate is oxidised to form pyruvic acid. The phosphate is donated to ADP to form the ATP. Pyruvic acid is al ...
... molecules of ATP are produced when two molecules of pyruvate are formed. Coupled with the loss of two ATP molecules in phosphorylation, the net gain of ATP in glycolysis is two. The triose phosphate is oxidised to form pyruvic acid. The phosphate is donated to ADP to form the ATP. Pyruvic acid is al ...
Diversity of Metabolism in Procaryotes
... Figure 5. Three examples of substrate level phosphorylation. (a) and (b) are the two substrate level phosphorylations that occur during the Embden Meyerhof pathway, but they occur in all other fermentation pathways which have an Embden-Meyerhof component. (c) is a substrate level phosphorylation fou ...
... Figure 5. Three examples of substrate level phosphorylation. (a) and (b) are the two substrate level phosphorylations that occur during the Embden Meyerhof pathway, but they occur in all other fermentation pathways which have an Embden-Meyerhof component. (c) is a substrate level phosphorylation fou ...
A2 Respiration test
... An experiment was carried out to measure the rate at which a sample of mitochondria used oxygen under different conditions. The mitochondria were placed in a well oxygenated liquid with a water potential equal to the water potential of their contents. At time A, an end-product of glycolysis was add ...
... An experiment was carried out to measure the rate at which a sample of mitochondria used oxygen under different conditions. The mitochondria were placed in a well oxygenated liquid with a water potential equal to the water potential of their contents. At time A, an end-product of glycolysis was add ...
EBIO 1210: General Biology 1 Name
... C) to test for release of O2 in the light. D) to test for production of either sucrose or starch. E) to test for the production of NADPH 33. Converting oxygen into water occurs during A) the Calvin cycle. B) the light reactions. C) the citric acid cycle. D) oxidative phosphorylation. E) glycolysis 3 ...
... C) to test for release of O2 in the light. D) to test for production of either sucrose or starch. E) to test for the production of NADPH 33. Converting oxygen into water occurs during A) the Calvin cycle. B) the light reactions. C) the citric acid cycle. D) oxidative phosphorylation. E) glycolysis 3 ...
Unit 2 - OCCC.edu
... The energy stored in a H+ gradient across a membrane couples the _____________ reactions of the electron transport chain to ATP synthesis The H+ gradient is referred to as a ______________________________ force, emphasizing its capacity to do work Acounting of ATP Production by Cellular Respiration ...
... The energy stored in a H+ gradient across a membrane couples the _____________ reactions of the electron transport chain to ATP synthesis The H+ gradient is referred to as a ______________________________ force, emphasizing its capacity to do work Acounting of ATP Production by Cellular Respiration ...
Electron-Transport Chain and ATP production
... Electron-Transport Chain and ATP production Occurs in the inner mitochondrial membrane where NADH and FADH2 are oxidized back to NAD+ and FAD. They transfer their e- in a series of steps and ultimately to O2: O2 + 4e- + 4H+ → 2H2O The energy released in these e- transfers is used to pump H+ (protons ...
... Electron-Transport Chain and ATP production Occurs in the inner mitochondrial membrane where NADH and FADH2 are oxidized back to NAD+ and FAD. They transfer their e- in a series of steps and ultimately to O2: O2 + 4e- + 4H+ → 2H2O The energy released in these e- transfers is used to pump H+ (protons ...
Photosynthesis
... • Think of photosynthesis as an energy “storing” process, not an energymaking or energy-releasing process. • The products of photosynthesis can be: ...
... • Think of photosynthesis as an energy “storing” process, not an energymaking or energy-releasing process. • The products of photosynthesis can be: ...
Scanning Electron Microscopy / Electron Probe X
... In SEM the focused electron beam is scanned over the area of interest. The resulting secondary (SE) and backscattered (BSE) electrons are used for making an image of the sample. Secondary electrons are created by an incident electron that transfers energy to an electron of the sample. This excited e ...
... In SEM the focused electron beam is scanned over the area of interest. The resulting secondary (SE) and backscattered (BSE) electrons are used for making an image of the sample. Secondary electrons are created by an incident electron that transfers energy to an electron of the sample. This excited e ...
or electron transport chain
... energy released is used to pump protons (H+ ions) across the thylakoid membrane from the stroma of the chloroplast to the thylakoid interior space producing a proton gradient. • As the accumulating protons in the thylakoid interior space pass back across the thylakoid membrane to the stroma through ...
... energy released is used to pump protons (H+ ions) across the thylakoid membrane from the stroma of the chloroplast to the thylakoid interior space producing a proton gradient. • As the accumulating protons in the thylakoid interior space pass back across the thylakoid membrane to the stroma through ...
Photosynthesis_Bio rev.3-8
... (c) Engelmann‘s experiment. In 1883, Theodor W. Engelmann illuminated a filamentous alga with light that had been passed through a prism, exposing different segments of the alga to different wavelengths. He used aerobic bacteria, which concentrate near an oxygen source, to determine which segments o ...
... (c) Engelmann‘s experiment. In 1883, Theodor W. Engelmann illuminated a filamentous alga with light that had been passed through a prism, exposing different segments of the alga to different wavelengths. He used aerobic bacteria, which concentrate near an oxygen source, to determine which segments o ...
Chapter 10
... form, electrons are shared or swapped between specific atoms in specific ways. So, chemical reactions- when chemical bonds change- are all about moving electrons around. Each atom, and each molecule, needs a certain number of electrons to be stable (less reactive); certainly, the molecules of cells ...
... form, electrons are shared or swapped between specific atoms in specific ways. So, chemical reactions- when chemical bonds change- are all about moving electrons around. Each atom, and each molecule, needs a certain number of electrons to be stable (less reactive); certainly, the molecules of cells ...
Mathematics Semester 1 Study Guide
... 8. What are polymers and how are they made? 9. What is a condensation or dehydration synthesis reaction? 10. What is a hydrolysis reaction? How is water involved in this type of reaction? 11. What are the four major classes of organic compounds? 12. What organic compound class includes the sugars an ...
... 8. What are polymers and how are they made? 9. What is a condensation or dehydration synthesis reaction? 10. What is a hydrolysis reaction? How is water involved in this type of reaction? 11. What are the four major classes of organic compounds? 12. What organic compound class includes the sugars an ...
Chapter 6 ENZYME SUBSTRATE REACTANTS PRODUCTS
... The light reactions and Calvin cycle are linked by these two molecules. ATP and NADPH These include a reaction center containing chlorophyll and an electron transport chain. Photosystem This is the key light capturing pigment.chlorophyll Photosystems I and II are located in this portion of the chlor ...
... The light reactions and Calvin cycle are linked by these two molecules. ATP and NADPH These include a reaction center containing chlorophyll and an electron transport chain. Photosystem This is the key light capturing pigment.chlorophyll Photosystems I and II are located in this portion of the chlor ...
study guide first semester chemistry
... 3. A student takes three masses of a beaker. 58.76g, 58.77g, 57.77g. Are the measurements accurate? Precise? Explain. ( You need to know the actual value to know if any measurements are accurate. They are not precise) 4. Identify the number of significant digits in each of the following measurements ...
... 3. A student takes three masses of a beaker. 58.76g, 58.77g, 57.77g. Are the measurements accurate? Precise? Explain. ( You need to know the actual value to know if any measurements are accurate. They are not precise) 4. Identify the number of significant digits in each of the following measurements ...
Note 4.1 - Cellular Respiration
... Aerobic Cellular Respiration – is a process that uses oxygen to harvest energy from organic components. Obligate aerobe – is an organism that cannot live without oxygen. Most eukaryotes, plants and animals, and some prokaryotes are obligate aerobes, requiring oxygen to live. They oxidize glucose to ...
... Aerobic Cellular Respiration – is a process that uses oxygen to harvest energy from organic components. Obligate aerobe – is an organism that cannot live without oxygen. Most eukaryotes, plants and animals, and some prokaryotes are obligate aerobes, requiring oxygen to live. They oxidize glucose to ...
Microbial Metabolism
... collision theory rules – Need sufficient activation energy – Number of molecules above this activation level = reaction rate ...
... collision theory rules – Need sufficient activation energy – Number of molecules above this activation level = reaction rate ...
AP Biology Cell Respiration Quiz Study Guide
... Questions to think about…these questions are geared strictly toward preparing for your quiz. The other list you were provided has material that should help guide your reading and prepare more for the full AP exam. 1. How much ATP and NADH is made with each respiratory pathway (anaerobic and aerobic) ...
... Questions to think about…these questions are geared strictly toward preparing for your quiz. The other list you were provided has material that should help guide your reading and prepare more for the full AP exam. 1. How much ATP and NADH is made with each respiratory pathway (anaerobic and aerobic) ...
Chapter 10~ Photosynthesis
... – enzyme extracts electrons from H2O & supplies them to chlorophyll • splits H2O • O combines with another O to form O2 • O2 released to atmosphere ...
... – enzyme extracts electrons from H2O & supplies them to chlorophyll • splits H2O • O combines with another O to form O2 • O2 released to atmosphere ...
Energy Flow in Living Things
... 10. Put a star next to the compounds that store chemical energy before and after cellular respiration has occurred. 11. Cellular respiration takes place in the __________________ of a cell. 12. Cellular respiration is a process that takes place in _____ cells, because ____ cells need ATP in order to ...
... 10. Put a star next to the compounds that store chemical energy before and after cellular respiration has occurred. 11. Cellular respiration takes place in the __________________ of a cell. 12. Cellular respiration is a process that takes place in _____ cells, because ____ cells need ATP in order to ...
week6photosynthesis
... About 50% of the glucose formed is used immediately to meet the plants energy needs Excess glucose can be converted to starch within the stroma of the chloroplast or in specialized storage cells of roots, tubers, seeds, and fruits REMEMBER, plants actively metabolize glucose (cellular respiration) a ...
... About 50% of the glucose formed is used immediately to meet the plants energy needs Excess glucose can be converted to starch within the stroma of the chloroplast or in specialized storage cells of roots, tubers, seeds, and fruits REMEMBER, plants actively metabolize glucose (cellular respiration) a ...
13 cellular respiration
... note: - electrons from NADH and FADH2 passed from carrier to carrier in a series of redox reactions. - H+ pumped into intermembrane space, making an electrochemical gradient. - oxygen finally receives electrons, and ties up H+ in matrix. - proton-motive force: protons flood through ATP synthase com ...
... note: - electrons from NADH and FADH2 passed from carrier to carrier in a series of redox reactions. - H+ pumped into intermembrane space, making an electrochemical gradient. - oxygen finally receives electrons, and ties up H+ in matrix. - proton-motive force: protons flood through ATP synthase com ...