Chapter 10
... Comparing Chemiosmosis in Mitochondria and Chloroplasts • Both use chemiosmosis to generate ATP – Electrons are passed through a series of carriers while protons are pumped through the membrane, creating an electrochemical gradient. – This creates a proton motive force, driving the phosphorylation ...
... Comparing Chemiosmosis in Mitochondria and Chloroplasts • Both use chemiosmosis to generate ATP – Electrons are passed through a series of carriers while protons are pumped through the membrane, creating an electrochemical gradient. – This creates a proton motive force, driving the phosphorylation ...
True or False: 1. Reactions are called endergonic if they occur
... Chlorophyll b absorbs in green wavelengths of light that chlorophyll a cannot absorb. In this respect, chlorophyll b acts as A. an accessory pigment B. an energizer for photosynthetic bacteria C. a light absorber in the green light D. a more efficient pigment E. all of the above are true ...
... Chlorophyll b absorbs in green wavelengths of light that chlorophyll a cannot absorb. In this respect, chlorophyll b acts as A. an accessory pigment B. an energizer for photosynthetic bacteria C. a light absorber in the green light D. a more efficient pigment E. all of the above are true ...
OCR A Level Biology B Learner resource
... The light-dependent reaction – the production of ATP and NADPH Photons of light are absorbed by chlorophyll a molecule in photosystem II. This causes 2 electrons from chlorophyll a to become excited and rise to a higher energy level. The excited electrons are picked up by electron acceptors and pass ...
... The light-dependent reaction – the production of ATP and NADPH Photons of light are absorbed by chlorophyll a molecule in photosystem II. This causes 2 electrons from chlorophyll a to become excited and rise to a higher energy level. The excited electrons are picked up by electron acceptors and pass ...
Plants & Photosynthesis
... Noncyclic photophosphorylation occurs in two pigment clusters called Photosystems I and II. Different pigments absorb different ranges of light wavelengths. The absorbed light “excites” electrons. ...
... Noncyclic photophosphorylation occurs in two pigment clusters called Photosystems I and II. Different pigments absorb different ranges of light wavelengths. The absorbed light “excites” electrons. ...
some bacteria
... Photosynthesis takes place in the chloroplast of plants and the cytoplasm of bacteria. •Chloroplasts are the specialized organelles in plants and some algae where photosynthesis ...
... Photosynthesis takes place in the chloroplast of plants and the cytoplasm of bacteria. •Chloroplasts are the specialized organelles in plants and some algae where photosynthesis ...
Chapter 3 Notes
... 2). Synthesis: making stage (dark reaction) -chemical energy is stored Pigments- molecules that absorb specific colours of light Chlorophyll- a green pigment that absorbs all light but green light Why is this? light can be transmitted (pass through), reflected (bounce off) or absorbed a green su ...
... 2). Synthesis: making stage (dark reaction) -chemical energy is stored Pigments- molecules that absorb specific colours of light Chlorophyll- a green pigment that absorbs all light but green light Why is this? light can be transmitted (pass through), reflected (bounce off) or absorbed a green su ...
Photosynthesis Teacher Notes
... • The electrons are excited by incoming light energy (from the sun). These excited electrons are passed through a series of electron carriers. Energy from these excited electrons is used to pump hydrogen ions through the chloroplast • An enzyme (ATP Synthase) uses the energy from these moving ions t ...
... • The electrons are excited by incoming light energy (from the sun). These excited electrons are passed through a series of electron carriers. Energy from these excited electrons is used to pump hydrogen ions through the chloroplast • An enzyme (ATP Synthase) uses the energy from these moving ions t ...
phot resp student version of notes
... • A pigment molecule is able to absorb energy from light within a narrow range of wavelengths. • Because of this, plants use a variety of pigments to absorb different wavelengths. These include: – Green ____________ a and chlorophyll b – The ____________ - which are red, orange and yellow • When lig ...
... • A pigment molecule is able to absorb energy from light within a narrow range of wavelengths. • Because of this, plants use a variety of pigments to absorb different wavelengths. These include: – Green ____________ a and chlorophyll b – The ____________ - which are red, orange and yellow • When lig ...
Chapter 9 - web.biosci.utexas.edu
... • also called hexose monophosphate pathway • can operate at same time as glycolytic or Entner-Doudoroff pathways • can operate aerobically or anaerobically • an amphibolic pathway ...
... • also called hexose monophosphate pathway • can operate at same time as glycolytic or Entner-Doudoroff pathways • can operate aerobically or anaerobically • an amphibolic pathway ...
photosynthesis
... (called reduced NADP or NADPH when it is carrying electrons). • Oxygen is released as a waste ...
... (called reduced NADP or NADPH when it is carrying electrons). • Oxygen is released as a waste ...
Biochemistry 3300 More Quizzes Page:1/4 1) How many electrons
... A) cytochrome c oxidase. B) ATP production. C) antibiotic activity. D) CoQ formation. E) CoA formation. 16) Which of the following statements about the chemiosmotic theory is correct? A) Electron transfer in mitochondria is accompanied by an asymmetric release of protons on one side of the inner mit ...
... A) cytochrome c oxidase. B) ATP production. C) antibiotic activity. D) CoQ formation. E) CoA formation. 16) Which of the following statements about the chemiosmotic theory is correct? A) Electron transfer in mitochondria is accompanied by an asymmetric release of protons on one side of the inner mit ...
CO2 + H2O light (CH2O) + O2 Chapter 18
... - Photosynthesis takes place in specialized organelles called chloroplasts in eukaryotes. Chloroplasts resemble mitochondria in many ways, one of which is that they both contain a double membrane. The inner membrane of both is highly selective regarding permeability. The stroma of a chloroplast is a ...
... - Photosynthesis takes place in specialized organelles called chloroplasts in eukaryotes. Chloroplasts resemble mitochondria in many ways, one of which is that they both contain a double membrane. The inner membrane of both is highly selective regarding permeability. The stroma of a chloroplast is a ...
Key Terms:
... pyruvate CO2 and reduced coenzymes 3. Electron Transport red. coenzymes are re-ox.; e- passed to O2; H+ gradient 4. Chemiosmosis H+ gradient drives ATP synthesis Glycolysis is universal, anaerobic and cytosolic 2 ATP in; 4 ATP out & 2 reduced coenzymes glucose (six carbons, C6) 2 moleucles of py ...
... pyruvate CO2 and reduced coenzymes 3. Electron Transport red. coenzymes are re-ox.; e- passed to O2; H+ gradient 4. Chemiosmosis H+ gradient drives ATP synthesis Glycolysis is universal, anaerobic and cytosolic 2 ATP in; 4 ATP out & 2 reduced coenzymes glucose (six carbons, C6) 2 moleucles of py ...
Photosynthesis: An Overview
... Light-independent reactions use ATP and NADPH molecules produced in the light-dependent reactions to produce high-energy sugars from carbon dioxide ...
... Light-independent reactions use ATP and NADPH molecules produced in the light-dependent reactions to produce high-energy sugars from carbon dioxide ...
Photosynthesis and Chemosynthesis
... protons from the stroma to the lumen. The proton gradient across the thylakoid membrane creates a proton-motive force, used by ATP synthase to form ATP. In cyclic photophosphorylation, cytochrome b6f uses the energy of electrons from not only PSII but also PSI to create more ATP and to stop the prod ...
... protons from the stroma to the lumen. The proton gradient across the thylakoid membrane creates a proton-motive force, used by ATP synthase to form ATP. In cyclic photophosphorylation, cytochrome b6f uses the energy of electrons from not only PSII but also PSI to create more ATP and to stop the prod ...
-The oxygen consumed during cellular respiration is involved
... -A cell has enough available ATP to meet its needs for about 30 seconds. What is likely to happen when an athlete exhausts his or her ATP supply? ...
... -A cell has enough available ATP to meet its needs for about 30 seconds. What is likely to happen when an athlete exhausts his or her ATP supply? ...
Cellular Respiration Scrambled Steps
... Each protein in the electron transport chain passes an electron to the next protein and pumps an H+ ion into the intermembrane space. If no oxygen is present (anaerobic), pyruvic acid goes through “fermentation.” In the cytoplasm of a cell, cellular respiration begins. The final end products of cell ...
... Each protein in the electron transport chain passes an electron to the next protein and pumps an H+ ion into the intermembrane space. If no oxygen is present (anaerobic), pyruvic acid goes through “fermentation.” In the cytoplasm of a cell, cellular respiration begins. The final end products of cell ...
Chapter 9 Pictures
... • electron acceptor captures an excited electron • excited electrons are passed through a short electron transport chain to NADP+ reducing it to NADPH • NADP+ -final electron acceptor • electrons are stored in high state of potential energy in NADPH molecule • NADPH, ATP and O2 are products of light ...
... • electron acceptor captures an excited electron • excited electrons are passed through a short electron transport chain to NADP+ reducing it to NADPH • NADP+ -final electron acceptor • electrons are stored in high state of potential energy in NADPH molecule • NADPH, ATP and O2 are products of light ...
Light Independent Reactions notes 3
... thylakoid membrane and create a concentration gradient. • Energy from the concentration gradient is used to generate ATP from ADP and phosphate by means of chemiosmosis. As hydrogen ions move down their concentration gradient, they drive the reaction that generates ATP. ...
... thylakoid membrane and create a concentration gradient. • Energy from the concentration gradient is used to generate ATP from ADP and phosphate by means of chemiosmosis. As hydrogen ions move down their concentration gradient, they drive the reaction that generates ATP. ...
ENERGY FLOW WITHIN THE CELL (2) LEARNING OBJECTIVES
... Acetyl-CoA derived mainly from oxidation of either glucose, or from fatty acids or partly from certain amino acids combine with oxaloacetate to form citric acid or citrate (first reaction of TCA cycle). In this reaction the acetyl-CoA transfer its acetyl group (2 C) to ...
... Acetyl-CoA derived mainly from oxidation of either glucose, or from fatty acids or partly from certain amino acids combine with oxaloacetate to form citric acid or citrate (first reaction of TCA cycle). In this reaction the acetyl-CoA transfer its acetyl group (2 C) to ...
Notes-Unit 6-photosynthesis
... • cluster of pigment molecules • two photosystems: 1 and 2 1. light is absorbed by chlorophyll a in photosystem 2 • 2 electrons are energized (excited) to higher energy level 2. electrons leave chlorophyll a (oxidized) (LEO) • goes to primary electron acceptor in thylakoid membrane (reduced)(GER) 3. ...
... • cluster of pigment molecules • two photosystems: 1 and 2 1. light is absorbed by chlorophyll a in photosystem 2 • 2 electrons are energized (excited) to higher energy level 2. electrons leave chlorophyll a (oxidized) (LEO) • goes to primary electron acceptor in thylakoid membrane (reduced)(GER) 3. ...
Ch19Pt3.doc
... Bacteria. Instead of green they are purple: a color that comes from two pigments. One type of bacterial chlorophyll is blue and that is mixed in these cells with red carotenoid pigments to produce a beautiful purple color. These bacteria use H2S rather than H2O as the electron donor for non-cyclic p ...
... Bacteria. Instead of green they are purple: a color that comes from two pigments. One type of bacterial chlorophyll is blue and that is mixed in these cells with red carotenoid pigments to produce a beautiful purple color. These bacteria use H2S rather than H2O as the electron donor for non-cyclic p ...
Photosynthesis intro_student
... chains generate ATP, NADPH, & O2 • Two connected photosystems collect photons of light and transfer the energy to chlorophyll electrons • The excited electrons are passed from the primary electron acceptor to electron transport chains – Their energy ends up in ___________________ ...
... chains generate ATP, NADPH, & O2 • Two connected photosystems collect photons of light and transfer the energy to chlorophyll electrons • The excited electrons are passed from the primary electron acceptor to electron transport chains – Their energy ends up in ___________________ ...
Review 1st Qtr KEY
... a. an s orbital. c. a combination of px and py orbitals. b. a px orbital. d. a combination of an s and a px orbital. ...
... a. an s orbital. c. a combination of px and py orbitals. b. a px orbital. d. a combination of an s and a px orbital. ...
