The Effect Of Temperature On The Enzyme Amylase And Its Activity

Amylase experiment # 2 was done to see how the pH affected the efficacy of the enzyme. First we collected all of the materials that were necessary to make this experiment. We needed five clean test tubes, the following standard solutions, 1% Starch Solution pH 3,1% Starch Solution pH 5,1% Starch Solution pH 7,1% Starch Solution pH 9,1% Starch Solution pH 11

Hypothesis: If the temperature increases, then rate of the chemical reaction will increase as well, and if the temperature decreases, then the rate of reaction will also decrease.

The purpose of this experiment was to determine (1) the reaction rate of an amylase enzyme in starch and (2) the environmental factors that can affect the enzymatic activity. The hypothesis, in relation to the enzymatic activity by variables such as the substrate concentrations, temperature, PH and chemical interactions on the rate of reaction, stated

to infer that bacterial amylase would break down the starch better and faster than the fungal

During these experimental procedures, the implication of multiple different temperatures on fungal and bacterial amylase was studied. In order to conduct this experiment, there were four different temperatures used. The four temperatures used were the following: 0 degrees Celsius, 25 degrees Celsius, 55 degrees Celsius, and 80 degrees Celsius - Each temperature for one fungal and one bacterial amylase. Drops of iodine were then placed in order to measure the effectiveness of the enzyme. This method is produced as the starch test. The enzyme was tested over the course of ten minutes to determine if starch hydrolysis stemmed. An effective enzyme would indicate a color variation between blue/black to a more yellowish color towards the end of the time intervals, whereas a not so effective enzyme would produce little to no change in color variation. According to the experiment, both the fungal amylase and bacterial amylase exhibited a optimal temperature. This was discovered by observing during which temperature and time period produced a yellow-like color the quickest. Amylase shared a similar optimal temperature of 55 degrees Celsius. Most of the amylases underwent changes at different points, but some enzymes displayed no effectiveness at all. Both amylases displayed this inactivity at 0 degrees Celsius. At 80 Celsius both the enzymes became denatured due to the high temperatures. In culmination, both fungal and bacterial amylase presented a array of change during it’s

Effect of varying Temperatures on Enzymatic Activity of Bacterial and Fungal Amylase and hydrolysis of Starch

The effects of temperature on fungal amylase Aspergillus oryzae, and bacterial amylase, Bacillus licheniformis ability to break down starch into maltose was studied. The study determined the optimal temperature the Aspergillus oryzae and Bacillus licheniformis was able to break down the fastest. The starch catalysis was monitored by an Iodine test, a substance that turns blue-black in the presence of starch. Amylase catabolizes starch polymers into smaller subunits. Most organisms use the saccharide as a food source and to store energy (Lab Manual, 51). The test tubes were labeled with a different temperature (0°C, 25°C, 55°C, 85°C). Each test tube was placed in its respective water baths for five minutes. After the equilibration process, starch was placed in the first row of the first row of the spot plate. Iodine was then added to the row revealing a blue black color. The starch was then added to the amylase. After every two minute section a pipette was used to transfer the starch-amylase solution to place three drops of the solution into the spot plate row under the corresponding temperature. Iodine drops was placed in the row. Color changes were noted and recorded. The results showed Aspergillus oryzae was found to have an optimal temperature between 25°C and 55°C and Bacillus licheniformis was found to have an

Amylase is an enzyme that is located in human saliva. It is solely accountable for breaking down starch as a way to start the breakdown of food and is one of the first steps of digestion. The time at which the enzyme starts the chemical reaction with starch is called the reaction rate. In order to study how amylase works against starch, this experiment consisted of two tests; each testing a different condition of amylase. The first test was to simply study the reaction between saliva and amylase and note the reaction rates. The second test was to see if increasing the pH would decrease the reaction rate or halt it all together. Saliva was collected, diluted, and tested for reactions between starch and amylase. Another sample of saliva was collected, diluted, and had its pH increased and tested for reaction rate. The findings after the experiment was conducted aligned with the original hypothesis. The change in pH did show a significant decrease in the reaction rate.

Hypothesis: If we decrease the level of pH in the enzyme Amylase, it will not be able to denature the carbohydrates in the potato starch solution after 10 drops because enzymes are very sensitive to pH levels and lowering it too much will compromise its ability to break them down.

The objective of the lab was to examine the effects of environmental variables on the functions of an enzyme. To the point, an experiment was conducted to test the effect of pH on the function of the enzyme Amylase.

In this experiment we wanted to determine the optimal temperatures for fungal, Aspergillus oryzae, and bacterial, Bacillus licheniformis. In order to see if any of the starch was broken down, Iodine was mixed with the starch-amylase substance. In four spot plates, the groups labeled the different temperatures, once the iodine came in contact with the starch, the result would be a reaction that turns the fluid into this dark blue/black color. In a span of 10 minutes, with occasional check ups on the solution every 2 minutes, the amylase-starch solution was placed into five types of temperature, all being Celsius. The five temperatures were 0 degrees, 25 degrees, 55 degrees, and 85 degrees Celsius. The solution would change colors, so in order to measure the changes, a scale was used. Such scale was a 1-5 scale, with colors next to each number. One being the lightest color, or yellow, and 5 being the darkest color, or black. Based on the change of color, we could tell how fast it hydrolyzed the starch in a span of 10 minutes. To keep record of the results, the results were put in Data Tables used from the Lab Manual. The average optimal temperature for Bacteria Amylase was 85 degrees Celsius, while the Fungal was 55 degrees Celsius. You can see this by looking for the

To study the effects of temperature, pH, enzyme concentration, and substrate concentration there were certain steps that were followed in order to conduct this experiment. Each factor had a separate procedure to follow to find how each had a different effect on the enzyme.

In this lab our group observed the role of pancreatic amylase in the digestion of starch and the optimum temperature and pH that affects this enzyme. Enzymes are located inside of cells that increase the rate of a chemical reaction (Cooper, 2000). Most enzymes function in a narrow range of pH between 5 through 9 (Won-Park, Zipp, 2000). The temperature for which enzymes can function is limited as well ranging from 0 degrees Celsius (melting point) to 100 degrees Celsius (boiling point)(Won-Park, Zipp, 2000). When the temperature varies in range it can affect the enzyme either by affecting the constant of the reaction rate or by thermal denturization of the particular enzyme (Won-Park, Zipp, 2000). In this lab in particular the enzyme, which was of concern, was pancreatic amylase. This type of amylase comes from and is secreted from the pancreas to digest starch to break it down into a more simple form called maltose. Maltose is a disaccharide composed of two monosaccharides of glucose. The presence of glucose in our experiment can be identified by Benedicts solution, which shows that the reducing of sugars has taken place. If positive the solution will turn into a murky reddish color, where if it is negative it will stay clear in our reaction. We can also test if no reduction of sugars takes place by an iodine test. If starch is present the test will show a dark black color (Ophardt, 2003).

Amylase is an enzyme that is in human’s saliva as well as the pancreas. Enzymes are biological catalysts that speed up a chemical reaction. They break down complex molecules into simple ones. In this case, amylase converts starches (complex molecule) into simple sugars. That is why foods like potatoes for example, may taste sweet to us, because they contain starch. The optimum pH for pancreatic amylase is the pH of 7. In the experiment I have used buffer solutions with the pHs of 2.8, 4 and 6.5. I have also used iodine and starch. Normally, iodine is orange-yellow, however when you add starch to it, the solution will turn blue-black.

In this lab we looked at the role of pancreatic amylase in the digestion of starch and the effect that temperature and pH has on this enzyme. Enzyme’s work as catalysts that increase the rate of chemical reactions within cells (Cooper, 2000). In order to do this, enzymes must show two essential properties: these two fundamental properties of enzymes include increasing the rate of chemical reactions without being eternally altered by the reaction and accelerating the reaction rate with keeping the reactants and products in chemical equilibrium (Cooper, 2000). Enzymatic catalysis is necessary for life. Most biochemical reactions would not occur under the mild temperatures and pressures