Discussion:
The results of the three-part experiment provide a deeper knowledge about the factors that influence the rate of the reaction of the enzyme activity and how the factors influence the structure or function of the enzyme. After conducting the experiment in Part A, the results were the same as the hypothesis that as the number of disks increases the enzyme activity also, proportionally increase simultaneously shown clearly in figure achieved. When three disks were utilized, increasing the enzyme concentration enabling the molecules to collide with more hydrogen peroxide substrate molecules decomposing at a faster rate enabling more product to be formed. It can be seen that the Vmax approximately occurs at 230 kpa, indicating that
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All hypotheses predicted were correct for all factors tested according to the appropriate justification, except for one hypothesis in Part C. In Part A the increased number of enzyme concentration (also known as beef liver catalase) increases the rate of the reaction increases as well so long as all other factors such as pH, ionic concentrations and temperature remain unchanged or fixed. Furthermore, if diluted concentrations of 1.5 % and 3% the substrate concentration increases and the rate of the reaction until it reaches a limiting factor and becomes fully saturated. However, if simply distilled water without hydrogen peroxide is utilized the hydrogen peroxide would decrease as the rate of the reaction because no substrate enzyme complex will be formed therefore creating no products. Lastly, increasing the concentration of heavy metal ions, such as copper (II) Sulphate and lead (II) nitrate, will decrease the rate of the reaction as it will disrupt the bonds between the amino acids of the proteins denaturing the enzyme structure and function. It was learned that if distilled water is used without the concentrations of copper(II) Sulphate and lead (II) nitrate the rate of the reaction decreased as the heavy metal salts decreased. As a result of more water molecules, there is no substrate or enzyme catalase the reaction and quickly form a
In this lab or experiment, the aim was to determine the following factors of enzymes: (1) the effects of enzymes concentration the catalytic rate or the rate of the reaction, (2) the effects of pH on a particular enzyme, an enzyme known and referred throughout this experiment as ALP (alkaline phosphate enzyme) and lastly (3) the effects of various temperatures on the reaction or catalytic rate. Throughout the experiment 8 separate cuvettes and tubes are mixed with various solutions (labeled as tables 1,3 & 4 in the apparatus/materials sections of the lab) and tested for the effects of the factors mentioned above (concentration, pH and temperature). The tubes labeled 1-4 are tested for pH with pH paper and by spectrophotometer, cuvettes 1a-4a was tested for concentration and cuvettes labeled 1b-4b was tested for temperature in four different atmospheric conditions (4ºC, 23ºC, 32ºC and 60ºC) to see how the enzyme solution was affected by the various conditions. After carrying out the procedures the results showed that the experiment followed the theory for the most part, which is that all the factors work best at its optimum level. So, the optimum pH that the enzymes reacted at was a pH of 7 (neutral), the optimum temperature that the reactions occurs with the enzymes is a temperature of 4ºC or
This experiment looked at how substrate concentration can affect enzyme activity. In this case the substrate was hydrogen peroxide and the enzyme was catalase. Pieces of meat providing the catalase were added to increasing concentrations of hydrogen peroxide in order to measure the effect of hydrogen peroxide concentrations on the enzyme’s activity. The variable measured was oxygen produced, as water would be too difficult to measure with basic equipment.
Enzymes are types of proteins that work as a substance to help speed up a chemical reaction (Madar & Windelspecht, 104). There are three factors that help enzyme activity increase in speed. The three factors that speed up the activity of enzymes are concentration, an increase in temperature, and a preferred pH environment. Whether or not the reaction continues to move forward is not up to the enzyme, instead the reaction is dependent on a reaction’s free energy. These enzymatic reactions have reactants referred to as substrates. Enzymes do much more than create substrates; enzymes actually work with the substrate in a reaction (Madar &Windelspecht, 106). For reactions in a cell it is
This investigation will be carried out to investigate the rate of reaction of the enzyme catalase on the substrate hydrogen peroxide.
If different amounts of enzyme solution are added to the hydrogen peroxide, then the highest amount of enzymes will have the greatest reaction rate because enzymes catalyze reactions, meaning more oxygen will be produced quicker.
Background and Introduction: Enzymes are proteins that process substrates, which is the chemical molecule that enzymes work on to make products. Enzyme purpose is to increase the rate of activity and speed up chemical reaction in a form of biological catalysts. The enzymes specialize in lowering the activation energy to start the process. Enzymes are very specific in their process, each substrate is designed to fit with a specific substrate and the enzyme and substrate link at the active site. The binding of a substrate to the active site of an enzyme is a very specific interaction. Active sites are clefts or grooves on the surface of an enzyme, usually composed of amino acids from different parts of the polypeptide chain that are brought together in the tertiary structure of the folded protein. Substrates initially bind to the active site by noncovalent interactions, including hydrogen bonds, ionic bonds, and hydrophobic interactions. Once a substrate is bound to the active site of an enzyme, multiple mechanisms can accelerate its conversion to the product of the reaction. But sometimes, these enzymes fail or succeed to increase the rate of action because of various factors that limit the action. These factors can be known as temperature, acidity levels (pH), enzyme and/or substrate concentration, etc. In this experiment, it will be tested how much of an effect
3) Adding less enzyme caused the reaction to proceed more slowly than when more enzyme was utilized.
The purpose of this experiment was to record catalase enzyme activity with different temperatures and substrate concentrations. It was hypothesized that, until all active sites were bound, as the substrate concentration increased, the reaction rate would increase. The first experiment consisted of five different substrate concentrations, 0.8%, 0.4%, 0.2%, 0.1%, and 0% H2O2. The second experiment was completed using 0.8% substrate concentration and four different temperatures of enzymes ranging from cold to boiled. It was hypothesized that as the temperature increased, the reaction rate would increase. This would occur until the enzyme was denatured. The results from the two experiments show that the more substrate concentration,
The independent variable in this investigation is pH. Each individual enzyme has it’s own pH characteristic. This is because the hydrogen and ionic bonds between –NH2 and –COOH groups of the polypeptides that make up the enzyme, fix the exact arrangement of the active site of an enzyme. It is crucial to be aware of how even small changes in the
An Enzyme is a protein, which is capable of starting a chemical reaction, which involves the formation or breakage of chemical bonds. A substrate is the surface or material on or from which an organism lives, grows, or obtains its nourishment. In this case it is hydrogen peroxide. This lab report will be explaining the experiment held to understand the effects of the changes in the amount of substrate on the enzyme’s reaction.
The hypothesis was that if we investigated samples from different kingdoms, then the rate of reaction run by enzymes would change, and enzymes in animal cells would run reactions at the fastest rate, while enzymes in plant cells would run reactions at the slowest rate. The independent variable for this experiment was the samples of different kingdoms; the dependent variable was the rate of reaction run by the enzyme. To prepare a 500 ml sample, 21g of chicken liver was blended and mixed with water; and the sample of potato and the sample of an active yeast was made the same way. Then, a fermentation tube was marked from the top by centimeters and filled with hydrogen peroxide solution. Next, 1 ml of chicken liver blend was added into the tube by a pipet, and the time for 1 cm peroxide solution to be consumed was measured.
The aim of this study was to test the rate of reactivity of the enzyme catalase on hydrogen peroxide while subject to different concentrations of an inhibitor. The hypothesis was that hydrogen peroxide will be broken down by catalase into hydrogen and oxygen, where a higher concentration of inhibitor will yield less oxygen, resultant of a lower rate of reaction. Crushed potato samples of equal weight were placed in hydrogen peroxide solutions of various temperatures. The results showed that less gas was produced as the concentration of the inhibitor rose. This Is because more enzymes were inhibited, and so less active sites were available for reaction.
The purpose of this experiment is to see how the enzyme peroxidase performs under different conditions. An enzyme is a protein molecule that is a biological catalyst. A catalyst is a substance that speeds up a chemical reaction, while also lowering the activation energy of a reaction. The activation energy of a reaction is the initial amount of energy that is necessary to bring reactants together with the proper amount of energy and placement so that products can be formed. Enzymes have a unique 3-D shape, which enables it to stabilize a temporary association between substrates (the reactant molecules that binds to the active site of an enzyme and undergoes chemical modification).
Abstract: Enzymes, catalytic proteins that at as catalysis which makes the process of chemical reactions more easily. There are two main factors that actually affects enzymes and their functions which are temperature and pH. Throughout this experiment, the study how pH and peroxidase affects each other and the enzyme was made. The recordings of how the enzymes responded when it was exposed to four different pH levels to come up with an optimum pH which was predicted in the hypothesis and the IRV at the end.
This experiment is designed to analyze how the enzyme catalase activity is affected by the pH levels. The experiment has also been designed to outline all of the directions and the ways by which the observation can be made clearly and accurately. Yeast, will be used as the enzyme and hydrogen peroxide will be used as a substrate. This experiment will be used to determine the effects of the concentration of the hydrogen peroxide versus the rate of reaction of the enzyme catalase.