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Photosynthesis and Respiration 1. What are the three parts of an
... What is the green pigment in plants? Chlorophyll ...
... What is the green pigment in plants? Chlorophyll ...
Cellular Respiration 2
... Electron is passed to other molecules that have higher electronegativity • Reduces new acceptor ...
... Electron is passed to other molecules that have higher electronegativity • Reduces new acceptor ...
PHASE ONE: LIGHT REACTIONS
... Water is split into H+ and O2 o O2 leaves as waste o H+ stays inside of grana Passes electron on to Photosystem I Photosystem I (in thylakoid membrane) Light excites electrons Is constantly being feed electrons from photosytem II Electron is passed on to Ferrodoxin Ferrodoxin (in thylakoid ...
... Water is split into H+ and O2 o O2 leaves as waste o H+ stays inside of grana Passes electron on to Photosystem I Photosystem I (in thylakoid membrane) Light excites electrons Is constantly being feed electrons from photosytem II Electron is passed on to Ferrodoxin Ferrodoxin (in thylakoid ...
Ground State
... Pieter Zeeman, Lorentz “spectra line splitting” in magnetic filed 1902 Nobel Prize ...
... Pieter Zeeman, Lorentz “spectra line splitting” in magnetic filed 1902 Nobel Prize ...
Aerobic Metabolism ii: electron transport chain
... During the oxidation of NADH there are 3 steps in which the change in reduction potential is sufficient for ATP synthesis. This steps occurs in complexes I, III and IV. The resulting transmembrane proton gradient is used to make ATP via ATP synthase. Recent experimental evidence indicates that appro ...
... During the oxidation of NADH there are 3 steps in which the change in reduction potential is sufficient for ATP synthesis. This steps occurs in complexes I, III and IV. The resulting transmembrane proton gradient is used to make ATP via ATP synthase. Recent experimental evidence indicates that appro ...
Aerobic Metabolism ii: electron transport chain
... During the oxidation of NADH there are 3 steps in which the change in reduction potential is sufficient for ATP synthesis. This steps occurs in complexes I, III and IV. The resulting transmembrane proton gradient is used to make ATP via ATP synthase. Recent experimental evidence indicates that appro ...
... During the oxidation of NADH there are 3 steps in which the change in reduction potential is sufficient for ATP synthesis. This steps occurs in complexes I, III and IV. The resulting transmembrane proton gradient is used to make ATP via ATP synthase. Recent experimental evidence indicates that appro ...
(18 pts) Pyruvate can be converted to a variety of othe
... possible to make those different products from the same starting molecule.) The molecule could undergo any of a variety of different chemical reactions. Each would lead to a different product. Starting with pyruvate, for example, a carbon-carbon bond break would lead to ethanol and carbon dioxide. R ...
... possible to make those different products from the same starting molecule.) The molecule could undergo any of a variety of different chemical reactions. Each would lead to a different product. Starting with pyruvate, for example, a carbon-carbon bond break would lead to ethanol and carbon dioxide. R ...
document
... Part B: True/False. You may earn extra credit by correcting false answers. __________16. If an atom’s charge is positive, it has lost electrons. __________17. If an atom’s charge is negative, it has lost protons. __________18. You balance an equation by changing subscripts. __________19. You can on ...
... Part B: True/False. You may earn extra credit by correcting false answers. __________16. If an atom’s charge is positive, it has lost electrons. __________17. If an atom’s charge is negative, it has lost protons. __________18. You balance an equation by changing subscripts. __________19. You can on ...
Fluorescence of Chlorophyll
... Chlorophyll is a natural pigment found in green plants. It is the primary pigment that absorbs light energy from the sun for photosynthesis. This energy is then used by the plant to synthesize glucose from carbon dioxide and water. The structure of the chlorophyll molecule consists of several conjug ...
... Chlorophyll is a natural pigment found in green plants. It is the primary pigment that absorbs light energy from the sun for photosynthesis. This energy is then used by the plant to synthesize glucose from carbon dioxide and water. The structure of the chlorophyll molecule consists of several conjug ...
(light) reactions
... • serial carrier molecules that are oxidized and reduced as electrons are passed down the chain • released energy can be used to produce ATP by chemiosmosis ...
... • serial carrier molecules that are oxidized and reduced as electrons are passed down the chain • released energy can be used to produce ATP by chemiosmosis ...
visible light - cloudfront.net
... molecules in each complex can actually transfer an excited electron to initiate the light reactions. This specialized chlorophyll a is located in the reaction center • PRIMARY ELECTRON ACCEPTOR: Located near the reaction center, a primary electron acceptor molecule traps excited state electrons rele ...
... molecules in each complex can actually transfer an excited electron to initiate the light reactions. This specialized chlorophyll a is located in the reaction center • PRIMARY ELECTRON ACCEPTOR: Located near the reaction center, a primary electron acceptor molecule traps excited state electrons rele ...
PHOTOSYNTHESIS INTRODUCTION
... which absorbs light energy The two most common photosynthetic pigments are chlorophyll a and chlorophyll b Both pigments have a porphyrin ring attached to a long hydrocarbon tail The porphyrin ring contains a magnesium atom at the centre surrounded by a hydrocarbon ring with alternating double bonds ...
... which absorbs light energy The two most common photosynthetic pigments are chlorophyll a and chlorophyll b Both pigments have a porphyrin ring attached to a long hydrocarbon tail The porphyrin ring contains a magnesium atom at the centre surrounded by a hydrocarbon ring with alternating double bonds ...
Photosynthesis: An Overview
... • Light energy from the sun must be captured for photosynthesis to occur. • Sunlight is “white” light—actually a mixture of different ...
... • Light energy from the sun must be captured for photosynthesis to occur. • Sunlight is “white” light—actually a mixture of different ...
Energy - My CCSD
... B. C6H12O6 + 6O2 6CO2 + 6H2O + ATP Energy C. Begins in cytoplasm with Glycolysis 1. Turns glucose into pyruvic acid ...
... B. C6H12O6 + 6O2 6CO2 + 6H2O + ATP Energy C. Begins in cytoplasm with Glycolysis 1. Turns glucose into pyruvic acid ...
Enzymes
... Create an analogy for an enzyme & substrate on the piece of computer paper. Here’s my example. An enzyme is like a key because it only opens a specific lock and you can use the key over and over again. A substrate is like a lock because it changes forms (reactant Substrate and product). When the ke ...
... Create an analogy for an enzyme & substrate on the piece of computer paper. Here’s my example. An enzyme is like a key because it only opens a specific lock and you can use the key over and over again. A substrate is like a lock because it changes forms (reactant Substrate and product). When the ke ...
lecture 3 -photosynthesis
... • Occurs within the inner mitochondrial membrane • Electrons are removed from NADH and shuttled through a series of electron acceptors – Energy is removed from the electrons with each transfer • This energy is used to make ATP ...
... • Occurs within the inner mitochondrial membrane • Electrons are removed from NADH and shuttled through a series of electron acceptors – Energy is removed from the electrons with each transfer • This energy is used to make ATP ...
Electron transport chains in mitochondria
... • In Complex III (cytochrome bc1 complex; EC 1.10.2.2), the Q-cycle contributes to the proton gradient by an asymmetric absorption/release of protons. Two electrons are removed from QH2 at the QO site and sequentially transferred to two molecules of cytochrome c, a watersoluble electron carrier loca ...
... • In Complex III (cytochrome bc1 complex; EC 1.10.2.2), the Q-cycle contributes to the proton gradient by an asymmetric absorption/release of protons. Two electrons are removed from QH2 at the QO site and sequentially transferred to two molecules of cytochrome c, a watersoluble electron carrier loca ...
Energy Transfer In Plants
... Photosynthesis: Stage 1 Light hits the chloroplast and is absorbed by a pigment called chlorophyll A pigment is any light absorbing substance ...
... Photosynthesis: Stage 1 Light hits the chloroplast and is absorbed by a pigment called chlorophyll A pigment is any light absorbing substance ...
8_3bio
... photosystem II to photosystem I. • Energy from the electrons is used by the molecules in the electron transport chain to transport H+ ions from the stroma into the inner thylakoid space. ...
... photosystem II to photosystem I. • Energy from the electrons is used by the molecules in the electron transport chain to transport H+ ions from the stroma into the inner thylakoid space. ...
Glycolysis
... Energy for the body • Trapped in chemical bonds of fats, proteins, and carbs (potential) • liberate energy – break bonds – release energy, CO2 and H20 – Energy is transferred to ATP for use in the body ...
... Energy for the body • Trapped in chemical bonds of fats, proteins, and carbs (potential) • liberate energy – break bonds – release energy, CO2 and H20 – Energy is transferred to ATP for use in the body ...
Document
... CO2 enters through small openings in the leaves called stomata Center of leaves have cells with chloroplasts Contain chlorophyll Capture light energy ...
... CO2 enters through small openings in the leaves called stomata Center of leaves have cells with chloroplasts Contain chlorophyll Capture light energy ...