Bio Pre lab 6
During aerobic respiration, NADH delivers electrons to ______, and then ______ captures electrons at the end and joins with hydrogen to form water.
the electron transport chain; oxygen
Order the reactions in the citric acid cycle from the first step following condensation (on top), to the last (at the bottom).
1. Isomerization 2. The first oxidation 3. The second oxidation 4. Substrate-level phosphorylation 5. The third oxidation 6. Regeneration of oxaloacetate
Order the complexes in the electron transport chain from first (electrons enter) to last (electrons exit). Start at the top.
1. NADH dehydrogenase 2. The bc1 complex 3. The cytochrome oxidase complex
Place the events of the formation of ATP by ATP synthase in the order that they occur, beginning with the first event at the top.
1. Protons move across the membrane down their concentrations gradient. 2. The rotor and stalk structures rotate. 3. Mechanical energy changes the conformation of ATP synthase. 4. ATP formation is catalyzed.
A cell oxidizes an organic molecule producing 3 NADH molecules and 3 FADH2 molecules. How many ATPs (total) can be synthesized in the ETC from these molecules?
12
Select all of the following that are produced by one round of the Krebs cycle.
3 molecules of NADH 2 molecules of CO2
The number of ATP molecules generated per one molecule of glucose by aerobic respiration is ______ in prokaryotes and ______ in eukaryotes.
32; 30
What molecule enters the citric acid cycle and combines with oxaloacetate to form citric acid?
Acetyl-CoA
Select the molecules produced by the oxidation of pyruvate.
Acetyl-CoA NADH Carbon dioxide
Select the events that occur in the reaction that produces acetyl-CoA.
An acetyl group is attached to coenzyme A (CoA) NAD+ is reduced CO2 is removed from pyruvate
The P/O ratio takes into account the fact that, in the electron transport chain, there are Blank 1 protons pumped across the membrane per NADH Blank 2 and protons pumped across the membrane per FADH2.
Blank 1: 10 or ten Blank 2: 6 or six
Citrate synthase is inhibited by excess levels of Blank 1 and Blank 2.
Blank 1: ATP Blank 2: NADH
During oxidative phosphorylation, the enzyme Blank 1 Blank 2 uses energy stored in a proton gradient to phosphorylate ADP and make ATP.
Blank 1: ATP Blank 2: synthase
Blank 1-CoA enters the Krebs cycle and combines with oxaloacetate to form the 6-carbon molecule Blank 2 acid.
Blank 1: Acetyl Blank 2: tricarboxylic, citric, or citrate
The Blank 1 subunit of ATP synthase contains a channel through which protons move across the mitochondrial membrane down their concentration gradient.
Blank 1: F0
The final step of the Krebs cycle is the regeneration of oxaloacetate, which is produced when NAD+ is reduced to Blank 1.
Blank 1: NADH
The two electrons in Blank 1 can be used to synthesize 2.5 ATPs in the ETC.
Blank 1: NADH
When a carbon dioxide is removed from pyruvate, the product is a(n) Blank 1 group, which then attaches to coenzyme A.
Blank 1: acetyl
When a cell needs ATP, fatty acids are degraded to provide Blank 1-Blank 2 for the citric acid cycle.
Blank 1: acetyl Blank 2: CoA
During the process of Blank 1, energy stored in a proton gradient is used to synthesize ATP from ADP and Pi.
Blank 1: chemiosmosis
When ATP is in excess in cells, acetyl-CoA is used to produce Blank 1 Blank 2.
Blank 1: fatty Blank 2: acids
In eukaryotes, the electron transport chain occurs in the inner membranes of Blank 1.
Blank 1: mitochondria, mitochondrion, or the mitochondria
When electrons reach the end of the electron transport chain in mitochondria, the final electron acceptor is Blank 1.
Blank 1: oxygen, O, or O2
ATP is synthesized as Blank 1 flow down their concentration gradient through ATP synthase.
Blank 1: protons or H+
Excess levels of NADH prevent the enzyme, Blank 1 Blank 2 from catalyzing the conversion of pyruvate to acetyl-CoA.
Blank 1: pyruvate Blank 2: dehydrogenase
The flow of highly energetic electrons through the electron transport chain changes the Blank 1 of the pump proteins, which causes them to transport protons across the membrane.
Blank 1: shape or conformation
Which of these statements correctly indicate the location of pyruvate oxidation?
In eukaryotic cells, oxidation of pyruvate occurs in the mitochondria. In prokaryotic cells, oxidation of pyruvate occurs in the cytoplasm.
Energy stored in a proton gradient is used to synthesize ATP from ADP and Pi during what process in oxidative phosphorylation?
Chemiosmosis
The use of energy stored in a proton gradient to drive the synthesis of ATP is called which of the following?
Chemiosmosis
During formation of ATP by ATP synthase, rotation of the ______ causes a conformational change in the ______, which has the enzymatic activity.
F0 complex and stalk; F1 complex
Which of the following parts of ATP synthase is composed of the stalk and a knob?
F1
True or false: During aerobic respiration, the actual yield of ATP from a molecule of glucose is higher than the theoretical yield.
False
True or false: During aerobic respiration, the oxidation of pyruvate is coupled with the oxidation of NADH.
False
True or false: NADH and FADH2 donate electrons to the electron transport chain at the same point.
False
True or false: The matrix of the mitochondrion generally has a more positive charge than the intermembrane space.
False
Select all of the following that are true statements describing one round of the Krebs cycle.
Four pairs of electrons are removed from four of the intermediates in the cycle. A 2-carbon group from acetyl-CoA enters the cycle. One molecule of ATP is produced.
Which molecule, produced via substrate level phosphorylation in the citric acid cycle, is used to make ATP during the sixth reaction of the Krebs cycle.
GTP
In the process of aerobic respiration, what molecule is entirely consumed?
Glucose
ATP is an allosteric inhibitor of the enzyme phosphofructokinase. As a result of this feedback mechanism, when levels of ATP are high, what process is directly inhibited?
Glycolysis
Select the main control points for the Krebs cycle.
Inhibition of pyruvate dehydrogenase by NADH Inhibition of citrate synthetase by ATP
How does the actual yield of ATP compare to the theoretical yield of ATP during aerobic respiration in mitochondria?
It is lower
Select the processes that need to occur in order to release all three carbon atoms from pyruvate (once it has been produced by glycolysis) in the form of carbon dioxide.
Krebs cycle acetyl-CoA production
In the electron transport chain, the electrons from FADH2 release which of the following?
Less energy than those of NADH
In eukaryotes, the remaining energy in pyruvate is extracted in which organelle?
Mitochondria
In eukaryotic cells, the oxidation of pyruvate produced from glycolysis takes place in what organelle?
Mitochondrion
During the oxidation of pyruvate, this molecule is reduced.
NAD+
Select the products yielded by the passage of glucose through glycolysis and the citric acid cycle.
NADH ATP CO2
In the electron transport chain, how do NADH and FADH2 donate their electrons?
NADH donates to NADH dehydrogenase; FADH2 donates to ubiquinone
The mitochondrial matrix has what charge compared with the intermembrane space?
Negative
During the second half of the Krebs cycle, succinate undergoes several reactions to become which compound?
Oxaloacetate
What molecule is regenerated in the final step of the citric acid cycle?
Oxaloacetate
Oxidative respiration is made possible by its final electron acceptor which is which of the following?
Oxygen
The calculation of the P/O ratio depends on the number of binding sites for ATP on ATP synthase and the number of which of the following?
Protons required for rotation
The F0 subportion of ATP synthase contains the membrane-bound complex, and the F1 subportion consists of which of the following?
Stalk and catalytic head
The product of the second segment of the citric acid cycle is a four carbon molecule called which of the following?
Succinate
The first step of the citric acid cycle involves which of the following?
The attachment of an acetyl group to oxaloacetate
Prior to being transferred to oxygen, the last site of electrons in the electron transport chain is which of the following?
The cytochrome oxidase complex
Select the carrier molecules that move electrons from complex to complex in the electron transport chain.
Ubiquinone Cytochrome c
Of the following choices, which are not products of the citric acid cycle?
acetyl-CoA FAD
The complex of enzymes that removes CO2 from pyruvate is called pyruvate ______.
dehydrogenase
During each step of the electron transport system, electrons move to a more electronegative carrier, and thus move
down an energy gradient.
Match each cell type with the location of pyruvate oxidation.
eukaryotes <-> mitochondria prokaryotes <-> cytoplasm
During the breakdown of 1 molecule of glucose by aerobic respiration, the predicted yield of ATP for prokaryotes is
higher than the predicted yield of ATP for eukaryotes.
The electron transport chain is composed of a series of membrane-associated
proteins
During cellular respiration, acetyl-CoA is formed during a reaction that also:
removes a CO2 from pyruvate
The electrons donated to the electron transport chain by NADH activate ______ proton pumps, while those donated by FADH2 activate ______ proton pumps.
three; two
