(Reference images below) QUESTION 5 When I was a child, a common treatment for s

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(Reference images below)

QUESTION 5

When I was a child, a common treatment for small cuts was to pour hydrogen peroxide on the cut, which would kill any bacteria (and hurt like crazy!). However, I noticed that the solution always bubbled when it was added to the cut, what was causing this?

the bacteria were dying and releasing oxygen

there were yeast in the cut releasing catalase in gaseous form

the hydrogen peroxide was breaking down into water and oxygen gas

the blood from the cut was boiling

10 points   

QUESTION 6

A student in this course was interested in expanding her results from experiment 2 and she added a test tube in boiling water. She found that the balloon did not inflate at all. Why was this the case?

the enzyme is denatured by the high temperatures

the boiling of the water removed oxygen from the balloon

the boiling water reduced the atmospheric pressure around the balloon

hydrogen peroxide is boiled into a gas at high temperatures

10 points   

QUESTION 7

Which of the following does not directly influence rate of a reaction?

pH

temperature

toxicity of the product

substrate concentration

10 points   

QUESTION 8

A researcher decides to speed up the rate of his enzyme-catalayzed reaction so he adds more and more substrate. He sets up a series of test tubes and first adds 2ml of enzyme to each one. He then adds substrate as follows: He has one tube with 5ml of substrate, one with 10ml, one with 20 ml, one with 40ml and one with 80 ml. His results show that the product is formed more quickly from 5-10-20ml of substrate, but does not go any faster with 40 or 80ml than it did at 20ml. What is happening?

He needs to add more substrate to see a faster response

He needs to be more accurate in checking his product, as his results are clearly an error

He has reached the limit of how fast that amount of enzyme can act, regardless of how much more substrate is added

He forgot to add the product to each tube

10 points   

the bacteria were dying and releasing oxygen

there were yeast in the cut releasing catalase in gaseous form

the hydrogen peroxide was breaking down into water and oxygen gas

the blood from the cut was boiling

Lab 9: Enzymes Concepts to explore: Enzymes -Selectivity . Activators Inhibitors Catalysts . Activation energy .Activation site -Reaction rates Enzymes are specialized proteins that serve as biological catalysts to decrease the activation enerB normally needed for a reaction to occur. This means the reaction rate is up to millions of times faster than it would be without the enzyme. Most biochemical reactions require enzymes for them to occur at fast enough rates to be useful. Typical nomenclature for enzymes follows the pattern using the name of the substrate or the chemical reaction it catalyzes, and ends with ase", eg. catalase, amyl ase. (In other words, any time you see a word end in "ase you know it is an enzyme). Products Enzyme Enzyme Enzyme a.)Suhtrate entering b)Enxyme/suhestrate c) Prodocts leaving active site of enayme active site of enzyme Figure 1: The speciticity of enzymes is controlled by their lock and key fit with a spe- dfic substrate. Enzymes are extremely selective, and are often described as havinga "lock and key" fit (Figure 1). Their shape determines which substrates they bind and interact with. The activation site Lab 9: Enzymes is the pocket where the substrate attaches and where the reaction occurs. After the enzyme/substrate complex forms and catalysils occurs, the "new substrate is released from the active site, and the en zyme can repeat the process. Enzymes levels are not reduced or altered during the reaction. This means they are efficient and can be used repeatedly. Enzymes determine the rate at which the reaction oc rs (not how it occurs). Their activity is affected by temperature, pH, enzyme and substrate concentration, and other chemicals that may be present (such as salts, which can change the protein structure). Variations in temperature and alkalinity can change the shape of the proteins, such as enzymes, which makes them inactive (they can no longer bind to their substrate). The pH can alter charge of the pro

Explanation / Answer

Q5

The correct option is the hydrogen peroxide was breaking down into water and oxygen gas.

Q6

The correct option is the enzyme is denatured by the high temperatures.

Q7

Toxicity of the product does not directly influence rate of reaction.

Hence, the correct option is toxicity of the product.

Q8

Rate of enzyme reaction depends on the substrate saturation. Once the enzyme reaches to its maximum saturation with the substrate then the rate of enzyme reaction does not increase.

Hence, the correct option is He has reached the limit of how fast that amount of enzyme can act, regardless of how much more substrate is added

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