(a)
Interpretation:
The performance of chloroplast ATP synthase in the presence of DDT alone and DDT+ with thioredoxin present should be monitored.
Concept introduction:
DDT stands for Dichlorodiphenyltrichloroethane. This prevents the complete repolarization of mitochondria. High concentrations of DDT leads to the destruction of the structural integrity of mitochondria.
Thioredoxin is a class of small redox proteins, which acts as a redox signal in organisms.
Answer to Problem 30P
Thioredoxin
Explanation of Solution
Thioredoxin is a class of small redox proteins known to be present in all organisms, including animals & plants. The major function of Thioredoxin is known to be redox signaling. Up to some extent it is understood that thioredoxin plays a central role in human response to reactive oxygen species (ROS). In plants, thioredoxins are responsible for the regulation of a wide range of functions including photosynthesis, growth, flowering and the development and germination of seeds.
The given graph shows ATPase activity under different conditions. The pink color graph is for the modified enzyme. The modified enzyme contains the Chloroplast subunit, which contains the chloroplast ATP synthase.
When the 2 pink color graphs are examined, it is obvious that the presence of thioredoxin has significantly increased the ATPase activity. So, it is clear that thioredoxin regulated the activity of chloroplast ATP synthase.
So thioredoxine act as a redox regulator for ATPsynthase.
(b)
Interpretation:
The graphical behavior of control enzyme and modified enzyme when DDT concentration increased along the x-axis should be monitored.
Concept introduction:
DDT which stands for Dithiothreitol is a reducing agent which is found in biological systems.
Explanation of Solution
The given graph shows the ATPase activity Vs. DDT amount under different conditions.
DDT is a reducing agent which is present in this medium. It has the ability to increase the redox power of the medium. So increasing the reducing power means increasing the DDT concentration. Therefore to determine the effect of increasing reducing power, the effect of increasing DDT concentration should be examined.
When considering the ATPase activity of control enzyme along the x-axis (increasing of DDT) it is clear that ATPase activity hasn’t been changed much. To observe this the 2 blue color graphs should be examined. So it is clear that the ATPase activity of control enzyme has no effect of DDT concentration.
But the activity of ATPase of the modified enzyme has been significantly increased when DDT concentration is increased. It should be obvious when comparing the behavior of the 2 pink graphs. In both pink color graphs in the initial part, the ATPase activity has been significantly increased, when DDT concentration is increased.
That means increasing of DDT concentration or increasing of reducing power has increased the ATPase activity of the modified enzyme.
(c)
Interpretation:
The graphical behavior of modified enzyme which thioredoxin present and absent should be observed.
Concept introduction:
Thioredoxin & DDT are reducing agents known to be present in
Explanation of Solution
Thioredoxin is a class of small redox proteins known to be present in all organisms including animals & plants. DDT is again a reducing agent which is found in biological systems.
When studying the 2 blue color graphs, which is for the control enzyme, it is clear that DDT / thioredoxin was not been able to make a significant impact on the ATPase activity.
When observing the pink color graphs, which are for the modified enzyme, it is obvious that DDT / thioredoxin has been able to make an impact on the ATPase activity.
Out of these 2 thioredoxin has been able to make a significant effect on the modified enzyme.This should be visible when monitoring pink colour graphs along the x axis & y axis.
So it is clear that thioredoxin has made a significant effect rather than DDT.
The reason should be the excess efficiency in thioredoxin compared to DDT to increase the ATPase activity of modified enzyme.
So adding thioredoxin to the system has made the redox power increased, hence the ATPase activity increased.
(d)
Interpretation:
Overall four graphs should be monitored.
Concept introduction:
This experiment is planned to determine the responsible sub unit for the difference in ATPase activity in Chloroplast & Mitochondria.
Answer to Problem 30P
Yes
Explanation of Solution
Consider the changes of the graph of the modified enzyme along x axis. When DDT concentration has been increased the ATPase activity has increased and then shows a zero slope.
When adding thioredoxin along with DDT the activity of ATPase has distinguishably increased. So, thioredoxin should be the major factor responsible for the redox regulation of chloroplast subunit.
The modified enzyme has
(e)
Interpretation:
The biological process limited only to plants should be considered.
Concept introduction:
The biological process which is unique to plants is photosynthesis. It is the process of converting of the energy in sun light to chemical energy.
Answer to Problem 30P
Photosynthesis
Explanation of Solution
This thioredoxin use its reducing power to regulate high concentrations of reducing agents. Reducing agents are the chemical compounds who like to oxidize. This thioredoxin is present in the gamma sub unit of the modified enzyme. Gamma sub unit was originally taken from the chloroplast.
The particular biological process happens in chloroplast is photosynthesis. So photosynthesis, which is limited only to plant materials, should be the biological rationale of regulation of high concentrations ofreducing agents by producing thioredoxin.
Photosynthesis, which is unique to plant materials is the biological rationale of regulation of high concentrations of reducing agents by producing thioredoxin.
(f)
Interpretation:
For this part twenty amino acids with its structures should be considered.
Concept introduction:
Amino acid is the primary unit of protein. It has four groups as carbonyl group (- COOH),
Answer to Problem 30P
Cysteine
Explanation of Solution
An amino acid has four groups as carbonyl group (- COOH), amine group (-NH2), a hydrogen (-H) and R group.
Chemical formula of Cysteine: HS- C-H-(COOH)-NH2 In Cysteine a SH group is present as the R group.
At the reducing conditions, oxidation is mostly prevented and reduction is encouraged. The Sylphydryl group of cysteine (-SH) is a very strong reducing factor. Cysteine is the only amino acid with −SH group.
So cysteine can be mostly affected by reducing conditions.
Cysteine can be mostly affected by reducing conditions.
(g)
Interpretation:
Experiments related to prove reducing ability of cysteine should be mentioned.
Concept introduction:
Reducing agents has the ability to reduce. It is the capability to capture electrons in the medium.
Answer to Problem 30P
Group specific modification and site specific modification of proteins
Explanation of Solution
Group and site specific modifications in amino acids enable to install pre- determined modifications on proteins. They will change the original nature and reactions of the amino acids.
Reducing ability of a compound is the ability to capture extra electrons from the medium in order to increase the negative charge. This is shown by the reducing agents.
The reducing nature of the cystine is mainly due to the −SH group present .Therefore several modification s on −SH group with allow to confirm that out of 20 amino acids cystine is the amino acid which can show remarkable affect due to the reducing conditions.
Group specific modification and site specific modification of cysteine will prove that out of 20 amino acids cysteine is the one which mostly affected by reducing conditions.
Want to see more full solutions like this?
Chapter 19 Solutions
BIOCHEMISTRY 2 TERM ACCESS
- Understanding the Oxidation of Glucose and Its Products in the TCA Cycle Glycolysis, the pyruvate dehydrogenase reaction, and the TCA cycle result in complete oxidation of a molecule of glucose to CO2. Review the calculation of oxidation numbers for individual atoms in any molecule, and then calculate the oxidation numbers of the carbons of glucose, pyruvate, the acetyl carbons of acetyl-CoA. and the metabolites of the TCA cycle to convince yourself that complete oxidation of glucose involves removal of 24 electrons and that each acetyl-CoA through the TCA cycle gives up 8 electrons.arrow_forwardSaccharides: Using the following substrates, estimate the net ATP yield after glycolytic pathway, Kreb’s cycle and electron transport chain. Assume that the estimate for ATP yield per mole of NADH is 3 moles of ATP, while 1 mole of FADH2 is equivalent to 2 moles of ATP, and one mole of GTP is equivalent to one mole of ATP. Show all pertinent solutions and determine: a) ATP used, b) ATP produced, and c) Net ATP. Based on your solutions, rank the substrates based on increasing yield of ATP 1. Three moles of glucose-6-phosphate 2. Four moles of pyruvic acidarrow_forwardSaccharides: Using the following substrates, estimate the net ATP yield after glycolytic pathway, Kreb’s cycle and electron transport chain. Assume that the estimate for ATP yield per mole of NADH is 3 moles of ATP, while 1 mole of FADH2 is equivalent to 2 moles of ATP, and one mole of GTP is equivalent to one mole of ATP. Show all pertinent solutions and determine: a) ATP used, b) ATP produced, and c) Net ATP. Based on your solutions, rank the substrates based on increasing yield of ATP Five moles of Acetyl coenzyme Aarrow_forward
- Energy production pathway in targeted by drugs in the malignant (cancerous) cells to control an X cancer type. Use your speculation and tell targeting and destroying which one energy-producing agent of the oxidative phosphorylation will be most effective in blocking most of the energy and why?arrow_forwardWorking at cross-purposes? Gluconeogenesis takes place during intense exercise, which seems counterintuitive. Why would an organism synthesize glucose and at the same time use glucose to generate energy?arrow_forwardStructure, function, Oxidative decarboxylation of pyruvate reactions and mechanisms of activity regulation of pyruvatedehydrogenase multi-enzyme complex.arrow_forward
- Effects of Changing Metabolite Concentrations on Glycolysis In an erythrocyte undergoing glycolysis what would be the effect of a sudden increase in the concentration of a. AΤP? b. AMP? c. fructose-1.6-bisphosphate? d. fructose-2, 6-bisphosphate? e. citrate? f. glucose-6-phospthate?arrow_forwardQuestion:- briefly describe the three key elements (number them 1-3) that constitute the mechanism by which oxidative phosphorylation occurs; this is also known as the chemiosmotic cycle or the chemiosmotic theory.arrow_forwardWrite balanced biochemical equations for all the reactions in the catabolism of glucose to two molecules of pyruvate (the preparatory & payoff phase of glycolysis), including the standard free-energy change ΔG for each reaction. Then write the overall or net equation of glycolysis, with the net standard free-energy change when one molecule of glucose is converted into 2 molecules of pyruvate.arrow_forward
BiochemistryBiochemistryISBN:9781305577206Author:Reginald H. Garrett, Charles M. GrishamPublisher:Cengage Learning