L3 - Bacterial Metabolism v3
... – Compounds that can accept electrons (and protons) to drive the production of ATP ...
... – Compounds that can accept electrons (and protons) to drive the production of ATP ...
Photosynthesis - West Branch Schools
... plants that absorbs blue-violet and red, and reflects green. Chlorophyll is present in the chloroplasts of a plant cell. ...
... plants that absorbs blue-violet and red, and reflects green. Chlorophyll is present in the chloroplasts of a plant cell. ...
Pyruvate to Acetyl Coenzyme A (Acetyl CoA)
... Location: Inner mitochondrial membrane of mitochondria ...
... Location: Inner mitochondrial membrane of mitochondria ...
Cellular Respiration - Chapter 8 (new book).
... “producers – plants, some bacteria) while other obtain their food molecules from other sources (heterotrophic – animals, fungi) ...
... “producers – plants, some bacteria) while other obtain their food molecules from other sources (heterotrophic – animals, fungi) ...
File
... Photosynthesis • Light reactions convert light energy and water into chemical energy (in ATP and the reduced electron carrier NADPH) and oxygen. • Carbon-fixation reactions use the ATP and NADPH, along with CO2, to produce glucose. ...
... Photosynthesis • Light reactions convert light energy and water into chemical energy (in ATP and the reduced electron carrier NADPH) and oxygen. • Carbon-fixation reactions use the ATP and NADPH, along with CO2, to produce glucose. ...
Photosynthesis - cloudfront.net
... ADP + P ----- ATP (enzyme that catalyzes this reaction is ATP Synthetase) ATP ADP + P + energy to do cell work ( enzyme that catalyzes this reaction is called ATPase) ...
... ADP + P ----- ATP (enzyme that catalyzes this reaction is ATP Synthetase) ATP ADP + P + energy to do cell work ( enzyme that catalyzes this reaction is called ATPase) ...
second exam 05
... increases the chemical potential of the highly charged phosphate ion which then reacts with ADP to form ATP c) The proton gradient formed during electron transport in the mitochondria powers a molecular turbine whose mechanical energy is used to form ATP from ADP d) The concentration of protons on o ...
... increases the chemical potential of the highly charged phosphate ion which then reacts with ADP to form ATP c) The proton gradient formed during electron transport in the mitochondria powers a molecular turbine whose mechanical energy is used to form ATP from ADP d) The concentration of protons on o ...
Organic Molecules - Mr. Swords` Classes
... Carbon can form 4 bonds so many atoms can bond and branch off. ...
... Carbon can form 4 bonds so many atoms can bond and branch off. ...
Photosynthesis - Lecture Guide
... Insufficient for long term survival of the plant Some bacteria perform only this cycle (anoxygenic photosynthesis) Timeline: Sunlight is absorbed by electrons inside Magnesium atoms on Photosystem I Excited electrons from Photosystem II are transferred to the ferredoxin (oxidation of Photo ...
... Insufficient for long term survival of the plant Some bacteria perform only this cycle (anoxygenic photosynthesis) Timeline: Sunlight is absorbed by electrons inside Magnesium atoms on Photosystem I Excited electrons from Photosystem II are transferred to the ferredoxin (oxidation of Photo ...
Photosynthesis
... chlorophyll a molecules As a result of the light energy, electrons are released from the chlorophyll a molecule in an oxidation reaction The free electrons from the chlorophyll a molecule are then “accepted” by a protein called a primary electron acceptor which reduces the molecule The electrons the ...
... chlorophyll a molecules As a result of the light energy, electrons are released from the chlorophyll a molecule in an oxidation reaction The free electrons from the chlorophyll a molecule are then “accepted” by a protein called a primary electron acceptor which reduces the molecule The electrons the ...
Chapter 10
... •Colors disappear when absorbed but energy does not. •Photon absorbed – electron excited to higher energy level (increased PE) •Very unstable •Returns to ground state ...
... •Colors disappear when absorbed but energy does not. •Photon absorbed – electron excited to higher energy level (increased PE) •Very unstable •Returns to ground state ...
Chapter 1 Homework - due Tuesday, Sept
... 3. Why is each of the following essential to chemiosmotic ATP synthesis? a) electron transport chain - these protein complexes pump protons into the intermembrane space while passing electrons between them b) proton gradient - so that hydrogen ions will diffuse through the ATP synthase channels down ...
... 3. Why is each of the following essential to chemiosmotic ATP synthesis? a) electron transport chain - these protein complexes pump protons into the intermembrane space while passing electrons between them b) proton gradient - so that hydrogen ions will diffuse through the ATP synthase channels down ...
Photosynthesis Notes
... Photosynthesis happens in the leaves of the plant! We take in oxygen by breathing. How does carbon dioxide get into the leaves of the plants? ...
... Photosynthesis happens in the leaves of the plant! We take in oxygen by breathing. How does carbon dioxide get into the leaves of the plants? ...
Ch 10 Slides - people.iup.edu
... - begins with carbon fixation, incorporating CO2 into organic molecules ...
... - begins with carbon fixation, incorporating CO2 into organic molecules ...
photosynthesis lab review
... Some students were not able to get many data points in this experiment because the solution went from blue to colorless in only 5 minutes for the unboiled chloroplasts exposed to light. What modification to the experiment do you think would be most likely to provide ...
... Some students were not able to get many data points in this experiment because the solution went from blue to colorless in only 5 minutes for the unboiled chloroplasts exposed to light. What modification to the experiment do you think would be most likely to provide ...
Respiration
... • Energy is needed in first steps but released in later steps (net gain of 2 ATP) • Takes place in cytoplasm ...
... • Energy is needed in first steps but released in later steps (net gain of 2 ATP) • Takes place in cytoplasm ...
4.3 Photosynthesis in Detail
... electrons get excited and enter the electron transport chain (ETC) 2. water molecules are split and H, e, and oxygen is released for us to breathe 3. hydrogen ions (H+) are transported across thylakoid membrane ...
... electrons get excited and enter the electron transport chain (ETC) 2. water molecules are split and H, e, and oxygen is released for us to breathe 3. hydrogen ions (H+) are transported across thylakoid membrane ...
Photosynthesis and Cellular Respiration
... High-energy electrons move through the electron transport chain from photosystem II to photosystem I. As electrons pass from chlorophyll to NADP+, more hydrogen ions are pumped across the membrane. ATP synthase in the membrane allows H+ ions to pass through it. The enzyme binds ADP and a phosphate g ...
... High-energy electrons move through the electron transport chain from photosystem II to photosystem I. As electrons pass from chlorophyll to NADP+, more hydrogen ions are pumped across the membrane. ATP synthase in the membrane allows H+ ions to pass through it. The enzyme binds ADP and a phosphate g ...
ap biology review guide big idea #2
... incorporate new nucleotides into the complementary strands. The cycle is then repeated over and over until there are millions of copies of the target DNA. ...
... incorporate new nucleotides into the complementary strands. The cycle is then repeated over and over until there are millions of copies of the target DNA. ...