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•Catabolic pathway•Fermentation•Aerobic respiration•Anaerobic respiration•Cellular respiration•Redox reaction•Oxidation/reduction•Reducing agent•Oxidizing agent•NAD+•Electron transport chain•Glycolysis•Citric acid cycle•Oxidative phosphorylation
•Substrate- level phosphorylation
•Pyruvate•Acetyl CoA•Cytochromes•ATP synthase•Chemiosmosis•Proton-motive force•Alcohol fermentation•Lactic acid fermentation•Obligate anaerobes•Facultative anaerobes•Beta oxidation
Catabolic Pathway A metabolic pathway that releases
stored energy by breaking down complex molecules
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Fermentation
Catabolic process that makes a limited amount of ATP from glucose without an electron transport chain and that produces a characteristic end product such as ethyl alcohol or lactic acid
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Aerobic Respiration
Catabolic pathway that consumes oxygen and organic molecules, producing ATP.
This is the most efficient catabolic pathway and is carried out in most eukaryotic cells and many prokaryotic organisms
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Anaerobic Respiration
The use of molecules other than oxygen to accept electrons at the end of the electron transport chain
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Cellular Respiration
The catabolic pathways of aerobic and anaerobic respiration which break down organic molecules for the production of ATP
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Redox Reaction
Oxidation-Reduction Reaction A chemical reaction involving the
complete or partial transfer of one or more electrons from one reactant to another
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Oxidation/Reduction
Oxidation – the loss of electrons from one substance in a Redox Reaction
Reduction – the addition of electrons to another substance in a Redox Reaction
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Reducing Agent/Oxidizing Agent The electron donor in a Redox Reaction
is the reducing agent The electron acceptor in a Redox
Reaction is the oxidizing agent
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NAD+
A coenzyme that is the electron carrier that receives the hydrogen atom (1 proton and 1 electron) before it continues on to oxygen in energy releasing steps
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Electron Transport Chain
A sequence of electron carrier molecules that shuttle electrons during the redox reactions that release energy used to make ATP
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Oxidative Phosphorylation The production of ATP using energy
derived from the redox reactions of an electron transport chain
The third major stage of cellular respiration
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Substrate-level Phosphorylation
The formation of ATP by an enzyme directly transferring a phosphate group to ADP from an intermediate substrate in catabolism
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Glycolysis
The splitting of glucose into pyruvate. Occurs in almost all living cells Serves as the starting point for
fermentation and cellular respiration
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(back to lactic /alcohol fermentation)
Pyruvate
Ionized form of pyruvic acid During glycolysis glucose is split into two
three-carbon sugars and these smaller sugars are then oxidized and rearranged to form two molecules of pyruvate
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The Citric Acid Cycle
Also called the Krebs Cycle Takes place within the mitochondrial
matrix of eukaryotic cells or the cytosol of prokaryotes
Second major phase of cellular respiration
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Acetyl CoA
Acetyl coenzyme A Pyruvate is transformed to Acetyl CoA in
the citric acid cycle
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Cytochromes
Iron-containing protein that is a component of electron transport chains in the mitochondria of eukaryotic cells as well as the plasma membrane of prokaryotic cells
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ATP Synthase A complex of several membrane proteins
that provide a port though which proteins diffuse. This complex functions in chemiosmosis with adjacent electron transport chains, using energy of a hydrogen ion (proton) concentration gradient to make ATP. Found in mitochondrial membrane in eukaryotic cells and the plasma membrane of prokaryotes
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Chemiosmosis
Mechanism that uses energy stored in the form of a hydrogen ion gradient across a membrane to drive cellular work such as the synthesis of ATP. Most ATP synthesis in cells occurs by chemiosmosis
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Proton-Motive Force
The potential energy stored in the form of an electrochemical gradient, generated by the pumping of hydrogen ions across a biological membrane during chemiosmosis
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Alcohol Fermentation
Glycolysis followed by followed by the conversion of pyruvate to carbon dioxide and ethyl alcohol
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Lactic Acid Fermentation
Glycolysis followed by the conversion of pyruvate to lactate, with no release of carbon dioxide
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Obligate Anaerobes
An organism that only carries out fermentation or anaerobic respiration. Such organisms cannot use oxygen and in fact may be poisoned by it
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Facultative Anaerobes
An organism that makes ATP by aerobic respiration if oxygen is present but that switches to anaerobic respiration or fermentation if oxygen is not present
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