The Effects Temperature, pH and enzyme concentration have on Enzyme Catalase
Tiffany Sievers
Biology 110, Community College of Baltimore County
Abstract The purpose of this experiment was to test the effects that temperature, pH, and substrate concentration have on an enzyme catalase reaction. What affects will temperature, substrate concentration, and pH levels have on an enzymes catalase reaction? Temperature, pH levels and substrate concentration will have an effect on the enzymes catalyzed reaction. When an enzyme reaches a low temperature the reaction rate slows, as an enzymes temperature rises the reaction rate increases. If the temperature of an enzyme gets to high the reaction rate will slow dramatically and this is because the enzyme will become denatured. According to Dalton “All organisms use enzymes to speed up the rate of chemical reactions without increasing the temperature.” Enzymes are proteins which work best under specific temperatures, pH levels and substrate concentration when these conditions change they have an effect on an enzyme catalase reaction.
Introduction
According to Solomon “Enzymes are substrates that are produced by organisms that generally act as a catalase that initially bring about a chemical reaction.” Enzymes play an important role because every living organism needs proteins in order to speed up the biochemical reactions within the cell. According to the research & education Association “Enzymes are
Do enzyme reactions increase as the temperature is raised? It is proven that the rate of an enzyme reaction increases as the temperature is raised. But by how much? A ten-degree centigrade rise in temperature will increase by fifty to on hundred percent. There is a direct influence between enzyme activity and temperature. The question that was studied in Bio110 lab Enzyme Activity II was “Does temperature influence the activity of an enzyme?” The null hypothesis is; temperature does not significantly influence enzyme activity. The alternative hypothesis is; temperature does significantly influence enzyme activity. The alternative hypothesis is accepted. This is true because in our results in the Enzyme Activity II, showed that as temperature increases so does the activity of an enzyme.
• Fourthly, we kept the temperature at a constant 25°C using a water bath. At low temperatures, an increase in temperature causes an exponential increase in enzyme activity. This is because an increase in temperature provides more kinetic energy for the collisions of enzymes and substrates, so
peroxide (H2O2). The enzyme breaks H2O2 into water and oxygen. The production of the oxygen
The temperature can have a major impact on an enzyme. According to Campbell Biology author Reece etc. 2011 “The enzyme reaction will increase as the temperature increase with the increasing temperature….substrates collide with active sites more frequently when the molecules move rapidly.”(Reece etc 2011) Every enzyme hits its optimal temperature the reaction will be at its highest point.(Reece etc. 2011) When the
Enzyme catalysis is dependant upon factors such as concentration of enzyme and substrate, temperature and pH. These factors determine the rate of reaction, and an increase in temperature or pH above the optimum will
The human body is an incredible system that is capable of working a multitude of diverse functions. Without the help of the many different protein molecules, the human body would not be able to function properly. One major group of proteins called enzymes are mandatory for essential life. These proteins are constantly at work assembling molecules, metabolizing energy, and fighting off infections. An enzyme is a macromolecule that acts as a catalyst that speeds up a chemical reaction without being consumed by the reaction. Without these proteins, these reactions would take place too slowly to keep us alive. Essential parts in your body like vitamins and minerals cannot do any work without
Aim: The aim of the experiment is to test the effect temperature has on the activity of the enzyme rennin.
As the temperature increases, so will the rate of enzyme reaction. However, as the temperature exceeds the optimum the rate of reaction will decrease.
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
If different temperatures are used to catalyze enzyme activity, then the lowest temperature would produce the quickest reaction rate because enzymes can become denaturized at higher temperatures
As stated in the introduction, three conditions that may affect enzyme activity are salinity, temperature, and pH. In experiment two, we explored how temperature can affect enzymatic activity. Since most enzymes function best at their optimum temperature or room temperature, it was expected that the best reaction is in this environment. The higher the temperature that faster the reaction unless the enzyme is denatured because it is too hot. Similarly, pH and salinity can affect enzyme activity.
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,
Their purpose is to trigger a specific biochemical reaction, and provide control of metabolism. Enzymes lower energy barriers, which is why they are able to increase the speed of a cell's chemical reaction. All enzymes are considered protein macromolecules, in which are composed of amino acid molecules. Catalase is the enzyme focused on within this experiment. Catalase enzymes are important enzymes, for protecting the cell from oxidative damage by reacting with oxygen.
Enzymes only bind to specific substrates. Even a small change in the structure of a molecule can make an enzyme inefficient. Test tube 1 was the positive control of the experiment. Whereas, test tube 2 and 3 were the negative controls of the experiment. Results for the effect of temperature on enzyme showed that the test tube which was heated ate 80°C showed no color change, this means that if an enzyme is heated above its optimum temperature enzyme activity decreases, and the enzyme is denatured.
Within a cell, enzymes are used as a catalyst to increase the rate of chemical reaction. They do not consume themselves, rather they help in increasing the rate of reaction. Within the body, enzymes vary depending on their specific functions. For instance, hydrogen peroxide is a toxic chemical, but it breaks down into harmless oxygen and water. This reaction can be sped up using the enzyme catalyst produced by yeast. Hydrogen peroxide is produced as a byproduct in cellular reaction, because it is poisonous and must be broken down, therefore this reaction is important. The speeding up of the reaction is shown below: