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 ...

Here

...  Only 1 molecule of ATP is produced by each turn. ...

Photosynthesis Study Guide ANSWERS

... What is a pigment? What is specific pigment involved in photosynthesis? How does light wavelength (different colors) work with this pigment? Pigment is a molecule which absorbs specific wavelengths of light (colors). Chlorophyll in involved in photosynthesis. Blue and Reds are absorbed while GREEN i ...

page-182 - WordPress.com

... % efficient. Other highO of 182 four protein complexes: I, II, III, IV, with increasing 2. The chain Q#3-6, 9 &consists 10 pg. energy products of glycolysis are Electron two pyruvate and two to NADH molecules, which electronegativity along the chain. flow molecules from one complex another is facili ...

Photosynthesis - West Branch Schools

... Making ATP using light energy.. The energy from the sun is absorbed by the chlorophyll in the thylakoid membrane. NADP+ is an electron carrier that carries high energy electrons and two hydrogen ions. Turns into NADPH. The H+ ions are created when sunlight hits the thylakoid and water is split, cre ...

Topic 3.7 and Opt C Cell Respiration

... terms of chemiosmosis • The ETCs basic’s function is to ease the fall of electrons from food to oxygen, breaking a large energy drop into series of small steps. • Chemiosmosis is using H+ ion in the intermembrane space to drive ATP, through the use of an ATP synthase (enzyme). • Collectively ETC and ...

reactions --- electrons can`t flow in a vacuum, oxidation reactions

... 1.) Break the redox system down into multiple smaller steps, each of which release a manageable amount of energy 2.) Use mobile electron carriers to link these smaller reactions ...

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... the mitochondria known as the _________________________. Some ________ and other energy carrying molecules are produced here. The gas __________________is a byproduct of this process. The Electron Transport Chain Most of the ______ is produced in this last step of cellular respiration. Electron tran ...

Clicker game ?`s

... 7 Muscle fatigue is caused when the process of fermentation in oxygen-depleted cells produces A RuBP B pyruvate C alcohol D lactic acid E citric acid 8 Which of the following occurs in BOTH photosynthesis and respiration? A Calvin cycle B chemiosomosis C Citric acid cycle D glycolysis E photorespira ...

Self-Quiz

... 1. The potential energy of electrons in the light-dependent reactions reaches it highest level: a) at ferredoxin G b) when the chlorophyll of photosystem 2 is excited by light energy c) at the primary electron acceptor of photosystem 1 answer 2. In non-cyclic electron flow, the electron from the P68 ...

Photosynthesis and Cellular Respiration

... Heterotrophs: Cannot make their own food Autotrophs: Can make their own food ...

BIOLOGY NAME CH 8 READING QUIZ 11/3/14 What is ATP? Give a

... ...

Photosynthesis

... transfer to reaction center complex  Electrons transferred to primary electron acceptor, reducing it  Two types, II and I ...

Clicker game ?`s

... 7 Muscle fatigue is caused when the process of fermentation in oxygen-depleted cells produces A RuBP B pyruvate C alcohol D lactic acid E citric acid 8 Which of the following occurs in BOTH photosynthesis and respiration? A Calvin cycle B chemiosmosis C Citric acid cycle D glycolysis E photorespirat ...

Anabolism

... Chlorophyll and bacteriochlorophyll Required in photosynthesis ...

chapter 6 - Biochemical Pathways

... Electron carriers loaded with electrons and protons from the Kreb’s cycle move to this chain - like a “series of steps (staircase)” ...

Where It Starts – Photosynthesis Before you go on:

... Photosystems in the Light p. 98 Reactions Pigments are molecules that absorb light, arranged in clusters in the thylakoid membranes; called Photosystems (I & II). Cloroplast 1. When a photon of light strikes a photosynthetic pigment, an electron becomes “boosted” to a higher energy level. Thylakoid ...

You Light Up My Life

... Photosystems in the Light p. 98 Reactions Pigments are molecules that absorb light, arranged in clusters in the thylakoid membranes; called Photosystems (I & II). Cloroplast 1. When a photon of light strikes a photosynthetic pigment, an electron becomes “boosted” to a higher energy level. Thylakoid ...

SI Worksheet #10 (Chapter 9) BY 123 Meeting 10/8/2015 Chapter 9

... 8. How many molecules of pyruvic acid are made from a single molecule of glucose? ...

EXAM III KEY - the Complex Carbohydrate Research Center

... Student No._________________________________ ...

Document

... with a lower standard reduction potentials (EO) to a carrier with a higher EO ...

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... Heterotrophs are organisms which cannot make their own energy. All animals, fungi and some bacteria are heterotrophs. ...

Name - cloudfront.net

... absorbed and transformed to chemical energy in the bonds of NADPH and ATP. You can read about this process below. Steps of the Light Reactions The light reactions occur in several steps, all of which take place in the thylakoid membrane. • Step 1: Units of sunlight, called photons, strike a molecul ...

Foundations in Microbiology

... the end of a pathway blocks the action of a key enzyme 3. Feedback repression – inhibits at the genetic level by controlling synthesis of key enzymes 4. Enzyme induction – enzymes are made only when suitable substrates are present ...

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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