Interactions of Herbicides with Photosynthetic Electron Transport

... synthase complex converts the potential energy of the proton gradient, developed during electron transport, into highenergy phosphate bond energy in the form of ATP. The cytochromeb6/f complex is distributedapproximatelyequally between the appressedand unappressedmembranes(2). The separationof PS II ...

Respiration - WordPress.com

... The e- travel along the electron transport chain consisting of Three Electron Carriers within the Inner Mitochondrial Membrane. The e- transfer energy to carriers, causing them to pump H+ ions out of the Mitochondrial Matrix into the Intermembrane space. Forming an Electrochemical gradient. ...

Chapter 6-Photosynthesis

... protons to move from the thylakoid into the stroma. As a result, ATP would not be made by ATP synthase. Also, there would be fewer protons in the stroma to combine with NADP and make NADPH. (2) Increasing the carbon dioxide concentration makes more of it available to enter the Calvin Cycle, thus acc ...

Chapter 17

... - Proton pump mechanism: When electrons pass through the Complex I, III and IV , the conformations of the proteins are changed. These conformational changes change pK values of side chains of several amino acid residues. A series of proton association to low pK residue and proton dissociation from h ...

Document

... 7. Name molecules can produce ATP(energy) other than sugars. What are the product names can be used as a energy and waste produce after producing ATP or energy source? Protein- Ketone acid(as a energy source), Urea (Waste), Fat – Keto bodies(as a energy source) 8. Name the pathway before an amino ac ...

Cellular Respiration PowerPoint review

... Occurs in the MATRIX of the mitochondria Pyruvic Acid from Glycolysis enters to form  1 ATP  3 NADH  1 FADH2  CO2 (which is released when we exhale!!) AKA….Citric Acid Cycle ...

Cellular Respiration Stations Worksheet Station 1: Overview Why is

... ______________________ and ______________________ are converted into ATP here. 3. This process involves _______________ reactions and ___________________ additions. 4. The two steps of oxidative phosphorylation are:  Electron transport chain: no ________here, just a lot of ______________ transport ...

CELL RESPIRATION

... 7. Draw a diagram of the Krebs Cycle which shows the reactions in which CO2 is produced, specify how many CO2 are produced in each "turn" of the Krebs Cycle, and indicate how many turns of the cycle are necessary to oxidize the four carbons remaining from the original molecule of glucose; point out ...

No Slide Title

... chemiosmotic gradient of this molecule allows ATP synthase to produce ATP. ...

Honors Cellular Respiration

... use by cells. Once the energy that was in sunlight is changed into chemical energy by photosynthesis, an organism has to transform the chemical energy into a a form that can be used by the organism. This process is cellular respiration. ...

LOYOLA COLLEGE (AUTONOMOUS), CHENNAI – 600 034

... 3. Write the components that are involved in the synthesis of acetyl coenzyme A. 4. What would be the decarboxylated product of pyruvate in glycolysis? Mention the structure. 5. Define glycosuria. 6. What are ketone bodies? When and how are they formed in the body? 7. Calculate the energitics for pa ...

Scientific Method

... Results in OH- (hydroxide ion) and a H+ (hydrogen ion) H+ immediately reacts with another water to form H3O+ (hydronium ion) If # of OH- = # of H3O+ (H+) solution is neutral (pH 7) ...

ORGANELLE PACKET

... – Cells that can harness energy from the sun to create their own tissue and chemical energy ...

Cellular Respiration PPT

... Cells, of course don’t burn glucose, instead they gradually release energy from glucose and other food compounds. Release of energy from glucose occurs in 3 steps The pathway begins with Glycolysis Then Krebs Cycle And then Electron Transport Chain ...

The Need for Energy

... machines that only take $1 bills ...

VOCAB - Cellular Respiration

... •NAD+ •Electron transport chain ...

biology 422 - TeacherWeb

... 7. Where in the cell does glycolysis occur? 8. Where in the cell does the Krebs cycle occur? 9. Where in the cell does electron transport occur? 10.Where in plant eukaryotic cells do these processes occur? (#7,#8,#9) 11.Define the term “glycolysis” 12.What is the energy expenditure of the cell to be ...

cell respiration notes ap - Wesleyan

... Each NADH makes 3 ATP (drops its electrons at top of ETC; hits all 3 proton pumps) Each FADH2 makes 2 ATP (drops its electrons at Q; skips 1st proton pump; so makes less ATP) Electrons passing down ETC provide energy for pumping H + ions into INTERMEMBRANE SPACE Final electron acceptor at end of ETC ...

Khan Academy 15min cell respiration

... An ATP synthase (EC 3.6.3.14) is a general term for an enzyme that can synthesize adenosine triphosphate (ATP) from adenosine diphosphate (ADP) and inorganic phosphate by using some form of energy. This energy is often in the form of protons moving down an electrochemical gradient, such as from the ...

Lecture 15

... - Krebs Cycle takes place within the mitochondrial matrix, and breaks a pyruvate into CO2 and produce some ATP and NADH. - Some steps of Glycolysis and Krebs Cycle are Redox in which dehydrogenase enzyme reduces NAD+ into NADH. - Some of ATP is produced at these two steps via (substrate-levelphospho ...

Chapter 5, part A

... NADH and FADH2 • Summarize the reactants and products for the intermediate step and Kreb’s cycle - keep energy harvest number straight! ...

STEM_Midterm Study Guide_2017

...  What is produced during the light-dependent reaction?  What is needed for the light-independent reaction to take place?  What is produced during the light-independent reaction?  Describe what happens during the light-dependent reaction  Describe what happens during the light-independent react ...

Outline - Dark Reactions of Photosynthesis

... Photosynthesis - The process which occurs in the chloroplasts of green plants in which simple sugars are formed from carbon dioxide and water in the presence of light and chlorophyll. A. Two major parts of photosynthesis ...

Photosynthesis

... energy into chemical energy in the form of 2 chemicals ATP and NADPH.  Requires light  Light energy used to make ATP.  The light splits water into hydrogen ions (H+) and ...

Cellular Respiration

... • The molecules of electron transport chains are built into the inner membranes of mitochondria – The chain functions as a chemical machine that uses energy released by the “fall” of electrons to pump hydrogen ions across the inner mitochondrial membrane – These ions store potential energy ...

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Light-dependent reactions

In photosynthesis, the light-dependent reactions take place on the thylakoid membranes. The inside of the thylakoid membrane is called the lumen, and outside the thylakoid membrane is the stroma, where the light-independent reactions take place. The thylakoid membrane contains some integral membrane protein complexes that catalyze the light reactions. There are four major protein complexes in the thylakoid membrane: Photosystem II (PSII), Cytochrome b6f complex, Photosystem I (PSI), and ATP synthase. These four complexes work together to ultimately create the products ATP and NADPH.[.The two photosystems absorb light energy through pigments - primarily the chlorophylls, which are responsible for the green color of leaves. The light-dependent reactions begin in photosystem II. When a chlorophyll a molecule within the reaction center of PSII absorbs a photon, an electron in this molecule attains a higher energy level. Because this state of an electron is very unstable, the electron is transferred from one to another molecule creating a chain of redox reactions, called an electron transport chain (ETC). The electron flow goes from PSII to cytochrome b6f to PSI. In PSI, the electron gets the energy from another photon. The final electron acceptor is NADP. In oxygenic photosynthesis, the first electron donor is water, creating oxygen as a waste product. In anoxygenic photosynthesis various electron donors are used.Cytochrome b6f and ATP synthase work together to create ATP. This process is called photophosphorylation, which occurs in two different ways. In non-cyclic photophosphorylation, cytochrome b6f uses the energy of electrons from PSII to pump 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 production of NADPH. Cyclic phosphorylation is important to create ATP and maintain NADPH in the right proportion for the light-independent reactions.The net-reaction of all light-dependent reactions in oxygenic photosynthesis is:2H2O + 2NADP+ + 3ADP + 3Pi → O2 + 2NADPH + 3ATPThe two photosystems are protein complexes that absorb photons and are able to use this energy to create an electron transport chain. Photosystem I and II are very similar in structure and function. They use special proteins, called light-harvesting complexes, to absorb the photons with very high effectiveness. If a special pigment molecule in a photosynthetic reaction center absorbs a photon, an electron in this pigment attains the excited state and then is transferred to another molecule in the reaction center. This reaction, called photoinduced charge separation, is the start of the electron flow and is unique because it transforms light energy into chemical forms.

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Light-dependent reactions