4293767
Description
Quiz by gyorgycrack, updated more than 1 year ago
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Created by gyorgycrack
over 8 years ago
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Question 1
Question
Which of these is not true?
Answer
-
During glycolysis we will have a fragmentation of 6 Carbon atoms into a molecule of 3 Carbon atoms.
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Glycolysis takes place in the cytosol.
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Glycolysis is divided into two phases and 10 reactions occur.
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The final balance of the glycolysis is the creation of 4 molecules of ATP, 2 of NADH and 2 of pyruvate with a single molecule of glucose.
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Three reactions are regulated in glycolysis (1º, 3º and 10º)
Question 2
Question
Glycolysis appears in all the tissues
Answer
- True
- False
Question 3
Question
Triose phosphate isomerase acts in which reaction?
Answer
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First reaction: Glucose is phosphorylated into Glucose-6-Phosphate.
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Sixth reaction: Glyceraldehyde is phosphorylated and oxydated into 1,3-Biphosphoglycerate.
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Seventh reaction: 1,3-BPG transfer the phosphate group to a ATP forming 3-Phospoglycerate.
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This enzyme does not act in glycolysis.
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This enzyme acts in glycolysis but in any reaction here present.
Question 4
Question
In which reaction a phosphate group is required from an inorganic molecule?
Answer
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Sixth reaction
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Seventh reaction
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Eighth reaction
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Ninth reaction
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Tenth reaction
Question 5
Question
Which sequence in glycoysis is true?
Answer
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Glucose -> Glucose 6-Phosphate -> Fructose 6-Phosphate -> Fructose 1,6 biphosphate -> Dihydroxyacetate phosphate -> Glyceraldehyde 3-Phosphate -> 1,3 Biphosphoglycerate -> 3-Phosphoglycerate -> 2-Phosphoglycerate -> Phosphenolpyruvate -> Pyruvate
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Glucose -> Glucose 6-Phosphate ->Fructose 1,6 biphosphate -> Fructose 6-Phosphate -> Dihydroxyacetate phosphate -> Glyceraldehyde 3-Phosphate -> 1,3 Biphosphoglycerate -> 3-Phosphoglycerate -> 2-Phosphoglycerate -> Phosphenolpyruvate -> Pyruvate
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Glucose -> Glucose 6-Phosphate -> Fructose 6-Phosphate -> Fructose 1,6 biphosphate -> hydroxyacetate diphosphate -> 1,3 Biphosphoglycerate -> 3-Phosphoglycerate -> 2-Phosphoglycerate -> Phosphenolpyruvate -> Pyruvate
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Glucose -> Glucose 6-Phosphate -> Fructose 6-Phosphate -> Fructose 1,6 biphosphate -> Dihydroxyacetate phosphate -> Glyceraldehyde 3-Phosphate -> 3-Phosphoglycerate ->1,3 Biphosphoglycerate -> 2-Phosphoglycerate -> Phosphenolpyruvate -> Pyruvate
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Glucose -> Glucose 6-Phosphate -> Fructose 6-Phosphate -> Fructose 1,6 biphosphate -> hydroxyacetate diphosphate -> Glyceraldehyde 3-Phosphate -> 1,3 Biphosphoglycerate -> 3-Phosphoglycerate -> 2-Phosphoglycerate -> Phosphenolpyruvate -> Pyruvate
Question 6
Question
Which of these is true?
Answer
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Hexokinases I,II,III have a high specifity and a high affinity.
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Glucokinase has a high specifity and a low affinity.
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Hexokinases I,II,III are only present in liver.
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Glucose-6-phosphate can inhibit glucokinase but can not do anything with hexokinase I,II and III.
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In the phosphofructokinase the activators are F26BP, AMP and ATP
Question 7
Question
What happens if there are high concentrations of ADP and AMP?
Answer
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The energy charge increases
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The energy charge is not affected and ADP and AMP are activators
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ATP increases and it is an inhibitor
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The energy charge decreases
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The citrate concentration increases because it is an activator
Question 8
Question
Why fructose 2,6-biphosphate is an activator of PFK1?
Answer
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When PKA phosphorylates the bifunctional enzyme that catalyses the transformation of F6P into F26BP synthesis of glucose is activated and glycolysis in inhibited.
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When PKA phosphorylates the bifunctional enzyme that catalyses the transformation of F26BP into F6P synthesis of glucose is activated and glycolysis in activated.
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When Adenylate cyclase phosphorylates the bifunctional enzyme that catalyses the transformation of F26BP into F6P synthesis of glucose is activated and glycolysis in inhibited.
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When Adenylate cyclase phosphorylates the bifunctional enzyme that catalyses the transformation of F26BP into F6P synthesis of glucose is activated and glycolysis in activated.
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When PKA phosphorylates the bifunctional enzyme that catalyses the transformation of F26BP into F6P synthesis of glucose is activated and glycolysis in inhibited.
Question 9
Question
Which is the correct sequence in a fed state?
Answer
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Low Glu -> Glucagon -> High AMPc -> +PKA -> BEz is phosphorylated -> Low F26BP -> Glycolysis is blocked
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High Glu -> Insulin -> Phosphatases -> Not phosphorylation of BEz -> High F26BP -> Glycolysis is activated
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Low Glu -> Insulin -> High AMPc -> +PKA -> BEz is phosphorylated -> Low F26BP -> Glycolysis is blocked
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High Glu -> Glucagon -> Phosphatases -> Not phosphorylation of BEz -> High F26BP -> Glycolysis is activated
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High Glu -> Insulin -> Phosphatases -> Not phosphorylation of BEz -> Low F26BP -> Glycolysis is activated
Question 10
Question
In the case of the muscle the regulation of the production of pyruvate kinase depends on epinephrine
Answer
- True
- False
Question 11
Question
What of these we can not do with pyruvate?
Answer
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Fermentation in absence of O2
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Transform pyruvate into ethanol
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Produce lactic acid
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Act in the Krebs cycle
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Transform pyruvate into fructose
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