Deck 3: Bioenergetics,enzymes and Metabolism

Given the equation $\Delta$ G = $\Delta$ H - T $\Delta$ S,which set of conditions would result in a reaction that is unambiguously nonspontaneous?

Which reaction below might be a suitable coupled reaction for the reaction A + B <-> C + D ( $\Delta$ G = -8.7 kcal/mole)?

You are observing a reaction and discover that the reaction vessel is warm to the touch.The reaction also results in an increase in entropy.Is the reaction spontaneous? How do you know?

The development of bacterial resistance to antibiotics is an example of what engine of evolution?

You are studying metabolic pathways and discover that two pathways intersect so that the enzyme basinase participates in both of the intersecting pathways,in one case using substrate K and in the other using substrate M.When presented with substrate K in amounts significantly larger than M,basinase converts K to L which leads eventually to the production of the end product R.The activity of the second pathway is depressed simultaneously.In the presence of large amounts of substrate M and lower amounts of substrate K,the second pathway is activated and culminates in the production of that pathway's end product Y.The activity of the first pathway is depressed simultaneously.What are the alternative substrates K and M acting like?

You isolate the enzyme that synthesizes folic acid in bacteria and conduct some enzyme kinetics experiments.You find,not surprisingly,that sulfa drugs inhibit the enzyme's activity.What happens to the Vmax and KM of this enzyme when it is treated with sulfa drugs? Why do sulfa drugs have no effect on human metabolism?

Do the equations below represent coupled reactions? If not,why not?
A + B <-> C + D ( $\Delta$ G = +5.4 kcal/mole)
D + F <-> G + H ( $\Delta$ G = -4.4 kcal/mole)

Below is a segment of a cell's collection of biochemical pathways.M is a product of one series of these reactions.It is also a regulatory molecule.Look at the pathway below and indicate the position(s)at which M is most likely to act as a feedback inhibitor when its concentration gets too high.

If ATP is present in relatively high amounts,what is likely to happen to the rate of glycolytic activity in that cell?

A number of antibiotics attack prokaryotic protein synthesis,but not eukaryotic protein synthesis.Name two common antibiotics that work this way.What is their site of action and why don't they affect eukaryotic protein synthesis?

If a reaction vessel is cold to the touch and the reaction results in an increase in order in the reaction vessel,is the reaction spontaneous or nonspontaneous? Explain your answer.

Penicillin is an irreversible inhibitor of the transpeptidases,enzymes that cross-link components of the bacterial cell wall.The cell wall is thus fragile and the bacteria die.Penicillin and its derivatives are structural analogs of the natural substrates of these enzymes.Why doesn't penicillin normally kill humans,unless a severe allergic reaction (anaphylaxis)develops? How does penicillin inhibit transpeptidase?

An enzyme has a K_M of 20 µM and a V_max of 50 mmoles of product/minute/µg of enzyme.After exposure to an inhibitor and analysis on a Lineweaver - Burk plot the following values are obtained: -1/ K_M = - 0.05 liters/µmole and 1/ V_max = 0.04 (mmoles of product/minute/µg of enzyme)-1.What kind of inhibitor was used in the experiment?

Why are alcoholic beverages often made in airtight containers?

Why has the pharmaceutical industry drastically cut resources devoted to the development of new antibiotics?

Do the equations below represent coupled reactions? If not,why not?
A + B <-> C + D ( $\Delta$ G = -5.4 kcal/mole)
E + F <-> G + H ( $\Delta$ G = +4.4 kcal/mole)

What is the reason for treating a patient simultaneously with two antibiotics against the same bacterium?

Where is S.aureus usually found in humans? What kind of hospitalized patients develop life-threatening S.aureus infections? Distressingly,instead of just showing up in hospitals,methicillin-resistant S.aureus (MRSA)is showing up in other places.What are some examples?

What is unusual about the mechanism by which vancomycin inhibits transpeptidation of the bacterial cell wall? Why is it more difficult for bacteria to develop resistance to vancomycin than to other antibiotics?

If an antibiotic were found to bind to a site on an essential bacterial enzyme other than the active site,what would its most likely mode of action be?

In the reaction A + B <-> C + D,how might the reaction take place in the cell if the $\Delta$ G is very positive? How might the reaction occur if the $\Delta$ G is slightly positive?

4 ATPs per glucose molecule are made during glycolysis.Why then is there a net production of only 2 ATPs for each glucose molecule in the pathway?

You are observing an enzyme driven reaction.To the reaction mixture you add a chemical X which inhibits the reaction.If you add more substrate,the reaction rate approaches the V_max of the uninhibited reaction.Furthermore,the structure of X is similar to the natural substrate.What kind of inhibitor is X?

There have been two new classes of antibiotics developed and approved since 1963.One of these antibiotics acts specifically on bacterial ribosomes.What is it? Another new group of antibiotics is the cyclic lipopeptides.What is a representative of this group and how does this group of antibiotics work?

What appears to be the effect of reduced calorie intake on rhesus monkeys?

Certain bacteria have an adaptation that allows them to render penicillin harmless; they have adapted due to their possession of an enzyme called penicillinase.How does it render them immune to the effects of penicillin?

Many bacteria have acquired resistance to penicillin by picking up the gene for -lactamase.However,some have developed resistance without acquiring this gene.How do these bacteria escape the fatal effects of penicillin?

If mice are maintained on very strict diets with reduced caloric intake,what happens to their life span as compared to littermates fed diets with normal caloric content? What is a possible explanation for the effect of this diet on these animals?

What evidence suggests that lower blood levels of insulin may be important in promoting longevity?

How are new compounds typically screened for their effectiveness as antibiotics?

What are some ways that antibiotic resistance genes can be passed from bacterium to bacterium?

What strategies are employed to combat the ability of the AIDS (HIV)virus to develop drug-resistant variants?

Which antibiotic inhibits the enzyme DNA gyrase,which is required for bacterial DNA replication?

If people are kept on diets containing about 25% fewer calories than would be required to maintain their initial body weight,what happens?

Why was methicillin developed?

How does the AIDS virus manage to avoid the effects of drugs that attack its enzymes so effectively?

Penicillin fits into the active site of transpeptidases and thus acts as what kind of inhibitor? How is the effect of such an inhibitor usually able to be reversed? Why would this approach not work with penicillin?