There were 3 factors that we tested; enzyme concentration, temperature, and pH level. The class was then separated into three different groups to complete each portion of the experiment and at the end, we came together to share each of our individual results. Just to add as a side note, each group compared their findings to a control that they created before the start of every different scenario tested. The enzyme concentration group compared the original baseline results to two different conditions; if there was double the amount of peroxidase present and if there was half the amount of peroxidase present. The temperature group compared the original baseline results to four vastly different temperatures; cold (0℃), body (37℃), warm (45℃),
Figure 2 is a representation of the average saturation of each cuvette at a specific point time as a function. The y-axis shows the specific saturation points from figure 1, and the x-axis provides the different levels of pH. The pH scale provided on the x-axis ranges from 0 to 14, 0 being the most acidic and 14 being the most basic. The point chosen from figure 1 was the saturation levels of each cuvette at 110 seconds. The saturation point was chosen because in the previous graph at time 110 seconds the reactions of
The preparation for the experiment started by gathering the solutions of enzyme Peroxidase, substrate hydrogen peroxide, the indicator guaiacol and distilled water. Two small spectrometer tubes and three large test tubes with numbered labels. In addition, one test tube rack, one pipet pump and a box of kimwipes were also gathered. Before the experiment, the spectrometer must be set up to use by flipping the power switch to on. Following, the machine was warmed up for 10 minutes and the filter lever was moved to the left. In addition, I set the wavelength to 500 nm with the wavelength control knob. Before the experiment, I had to create the blank solution by pipetting 0.1 ml of guaiacol, 1.0 ml of turnip extract and 8.9 ml water into tube #1. Following the creation of the blank, a control 2% solution was created.
We hypothesized that a medium pH buffer added to the hydrogen peroxide an peroxidase reaction would be the best condition for the enzyme activity due to it being the more neutral than the high, being basic, and low, being acidic, pH.
The purpose of this experiment is to learn the effects of a certain enzyme (Peroxidase) concentration, to figure out the temperature and pH effects on Peroxidase activity and the effect of an inhibitor. The procedure includes using pH5, H202, Enzyme Extract, and Guaiacol and calibrating a spectrophotometer to determine the effect of enzyme concentration. As the experiment continues, the same reagents are used with the spectrophotometer to determine the temperature and pH effects on Peroxidase activity. Lastly, to determine the effect of an inhibitor on Peroxidase, an inhibitor is added to the extract. It was found that an increase in enzyme concentration also caused an increase in the reaction rate. The reaction rate of peroxidase increases at 40oC. Peroxidase performed the best under pH5 and declined as it became more basic. The inhibitor (Hydroxy-lamine) caused a decline in the reaction rate. The significance of this experiment is to find the optimal living conditions for Peroxidase. This enzyme is vital because it gets rid of hydrogen peroxide, which is toxic to living environments.
H2O2 is commonly known as hydrogen peroxide and it is a strong oxidizer and a naturally produced compound in humans as a by-product of oxidative metabolism. Because of this, humans also produce the enzyme catalase peroxidases in order to convert small amounts of H2O2 into oxygen and water. It uses the following chemical formula:
will be working at the pH 7 the majority of the time and our bodies
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.
reaction rate increases. If the temperature of an enzyme gets to high the reaction rate will slow
My graph shows there is an almost perfect positive correlation between the hydrogen peroxide concentration and the rate of the catalase enzyme reaction, with a correlation coefficient of 0.99. The rate of reaction at 1% concentration was 0.46cm3 oxygen produced per minute and the lowest recorded rate. For 3% was 1.33cm3 per minute, and for 6% was 2.17cm3 per minute and was the highest recorded rate. The
For this lab report, there's some unnecessary citation and commas almost in every section of the lab. For example, in the abstract section, there's an unnecessary in-text citation. Moreover, according to the lab manual, the abstract should include a little bit of everything such as the hypothesis, results, and methods. Which this lab report fails to do so this could be improved. In addition, the introduction part of the lab report was good. However, there were mistakes which include unnecessary commas, and space. At the end of the section, there's an awkward sentence "with the use of knowledge and understanding of chemical reactions....", this could be improved with
An Investigation on the rate of reaction of the enzyme Catalase on the substrate Hydrogen peroxide.
Wear safety goggles to protect the eyes from any splashes and wearing gloves is recommended when handling acids and
There were three test tubes in which the experiment was held. A relatively equal sized portion of raw potato (this contained the enzyme [a biological catalyst] hydrogen peroxidase) was placed in each tube. Then, enough water to cover the potato was added. Proceeding this, each of the test tubes were assigned a temperature; cold, room temperature or warm (this was written on the tag so that they were not confused). The test tube destinated ‘cold’ was placed in a ice bath for five minutes. At the same time, the ‘hot’ test tube was placed in a hot water bath for five minutes. Meanwhile, the room temperature test tube sat at room temperature for five minutes. When the five minutes were over, the test tubes were returned to the rack (so that they were able to be observed). Then, the test tubes were allowed to sit at room temperature for five more minutes. Once that period of time was over, 2 ml of hydrogen peroxide (the substrate) was added to each tube.
Enzymes speed up metabolic reactions necessary for life. Without them certain vital processes would not take place and the body would be unable to function.
The purpose of this lab report is to investigate the effect of substrate concentration on enzyme activity as tested with the enzyme catalase and the substrate hydrogen peroxide at several concentrations to produce oxygen. It was assumed that an increase in hydrogen peroxide concentration would decrease the amount of time the paper circle with the enzyme catalase present on it, sowing an increase in enzyme activity. Therefore it can be hypothesised that there would be an effect on catalase activity from the increase in hydrogen peroxide concentration measured in time for the paper circle to ride to the top of the solution.