Bio102 Problems

... C. This allows the organelle to have more copies of photosystems I and II and ATP synthase. D. The larger membrane improves its fluidity. E. This makes a more effective barrier to prevent protons from leaking through. 2. At the end of the electron transport chain found in the thylakoid membrane, the ...

Phenomenal Photosynthesis

... Photosystem I and P700 releases the electrons to the primary electron acceptor  2. From here, the electrons travel to Ferredoxin (Fd) and then to the cytochrome of PSII and end up back at PSI again.  3. During this electron transport chain, ATP is made by chemiosmosis and it is called cyclic photo ...

ap ch 10 powerpoint - Pregitzersninjascienceclasses

... Photosystem I and P700 releases the electrons to the primary electron acceptor  2. From here, the electrons travel to Ferredoxin (Fd) and then to the cytochrome of PSII and end up back at PSI again.  3. During this electron transport chain, ATP is made by chemiosmosis and it is called cyclic photo ...

BIOLOGY

... 2. CITRIC ACID CYCLE or KREB’S CYCLE (TRICARBOXYLIC ACID CYCLE): series of reactions in which the first reaction is also one of the end products. This occurs in the mitochondrion. These reactions require oxygen. ...

Semester Exam Review Guide

... a. elements are arranged by atomic number. b. metallic elements are placed on the right-hand side. c. elements in the same group have the same number of valence electrons. d. both a and c. 19. __________ brought back the concept of the atom in the_____century. a. Bernoulli, 18th. b. Boyle, 17th. c. ...

Chemistry I Honors – Semester Exam Review – Fall 2000

... Hydrogen atoms have specific energy levels. Therefore, the atoms can only gain or lose certain amounts of energy. When atoms lose energy, they emit photons which correspond to the lines in the emission spectrum. The more energy lost, the more energy the photon has. Bohr’s model stated that electrons ...

BIOL 100 Quiz 2 The four major classes of biological molecules

... none of the above. ...

Nutrients

...  Electron Transport Chain  Occurs in the inner mitochondrial membrane  Electrons and hydrogens are released from NADs and ...

respiration-notes-co..

... Electrons start out bound to NADH. Remember that NADH retains the potential energy that electrons had when they were in food. When NADH encounters the first component of the electron transport chain (FMN), it gives its electrons to FMN. In other words, NADH is an electron donor (it gets oxidized bac ...

Foundations in Microbiology

... • Hydrogen ions diffuse back through the ATP synthase complex causing it to rotate, causing a 3dimensional change resulting in the production of ATP ...

role of respiration in glycolysis, co2 and h20 production

... Set of the metabolic reactions that occur in cells to convert biochemical energy from nutrients into adenosine triphosphate (ATP), and then release waste products. The reactions involved in respiration are catabolic reactions that involve the oxidation of one molecule and the reduction of another. ...

Practice Test - IHS AP Biology

... E) the molecule has too few atoms. 11) Which of the following is a true distinction between fermentation and cellular respiration? A) Substrate-level phosphorylation is unique to fermentation. B) Only respiration oxidizes glucose. C) NADH is oxidized by the electron transport chain in respiration on ...

Glycolysis - Centre College

... • Catabolic pathways – Degradative – Oxidative – Exergonic ...

Chapter 7 Review Name: Date: Question Answer Process that

... 10. In the intermediate step of aerobic respiration, pyruvate is converted to this which enters the Krebs cycle ...

Exam Review 2 10/2/16

... 8. How many codons are needed to specify three amino acids? A. 3 B. 6 C. 9 D. 12 E. It can’t be done 9. During what stage of photosynthesis are ATP and NADPH converted to ADP + Pi and NADP+? A. The light dependent reactions B. The light independent reactions C. Both of the above D. None of the above ...

METABOLISM - Doctor Jade Main

... O2 gains hydrogen atoms to form water O2 is an electron grabber – pulls harder than other atoms to get electrons these hydrogen movements represent electron transfers each hydrogen atom consists of one electron and one proton electrons move along with hydrogens from glucose to O2 it is as if they ar ...

Lecture 8 - Harford Community College

... • Oxidation: the loss of electrons • Reduction: the gain of electrons • Redox reactions: when both occur at the same time • When electrons removed from a compound protons often follow (H+) • Oxidation: loss of a hydrogen atom • Reduction: gain of a hydrogen atom ...

Respiration

... How much ATP? • Oxidative phosphorylation makes ATP using energy from NADH and FADH • 1 NADH → 2.5 ATP • 1 FADH → 1.5 ATP ...

Recap: structure of ATP

... How much ATP? • Oxidative phosphorylation makes ATP using energy from NADH and FADH • 1 NADH → 2.5 ATP • 1 FADH → 1.5 ATP ...

Biology 301 Exam 3 Name Spring 2008 1. Which of the following is

... 40. Which of the following is NOT true regarding ATP synthases during aerobic respiration? A. They require proton motive force to make ATP. B. They span the inner membrane of mitochondria. C. The proton flow is outward during ATP synthesis. D. The subunits of ATP synthase undergo conformational chan ...

Questions for Respiration and Photoshyntesis

... 31. Describe the structure of the chloroplast and mitochondria. SEE BOARD 32. What happens when a pigment absorbs a photon? e-gets excited (is unstable) and is raised from the ground state 33. Where are photosystems located? Thylakoid – contain chlorophyll 34. Where do light rxns take place (thylako ...

3.7 Cell Respiration

... Cell respiration is the controlled release of energy from organic molecules in cells to form ATP. 2. State the equation for the process of cell respiration. C6H12O6 + 6O2  6CO2 + 6 H2O + Energy 3. Distinguish between aerobic and anaerobic in terms of cell respiration. Outline the general process of ...

File

... illustration in Module 6.8 introduces the three stages of cellular respiration. After rtr-rdying it, see if you can label the diagram below without referring to the text' Include t,l".i.orr-trurrrpori chain and chemiosmosis, pyruvic acid, mitochondrion, Cor, highATP, c,rergy electrons carried by NAD ...

SB3. Students will derive the relationship between single

... Photosynthesis -is the process that happens in the _______________ of plant cells and converts ___________ energy to chemical energy in the form of carbohydrates, or _______________. Photosynthetic organisms must also break down carbohydrates to form ATP. These carbohydrates are usually in the form ...

Option C - IBperiod5

... means "splitting of sugar" takes place in the cytoplasm, so it can occur in prokaryotes and eukaryotes 6-carbon glucose is split into two 3-carbon pyruvate molecules ( this is what they mean by lysis) Initially, 2 ATP have to be added The yield is 4 ATP and 2 NADH and 2 pyruvate molecules and Net ga ...

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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