In this lab the effect of the enzyme concentration has on the speed of the reaction will be observed. The amount of oxygen gas produced will be measured to determine the reaction rate. If the enzyme concentration increases then the reaction rate will also increase. The measure of how fats oxygen is produced will be how long it takes for the filter paper disk soaked in different concentrations of catalase to rise to the top. If catalase is exposed to boiling temperature then it will denature.
Catalyst is a general term to represent anything that speeds up a reaction. A biological catalyst speeds up chemical processes and cannot be used or changed in any way by the reaction. Catalase is a common enzyme. It is found in almost all living organisms that use oxygen, like bacteria, plants, and animals. Catalase is responsible for the degradation Hydrogen peroxide (H2O2) and breaks it down into water (H2O) and oxygen (O), which are harmless to living organisms. This way its main role is protecting the cell from damage caused by reactive oxygen species. Hydrogen peroxide is a byproduct of reactions in our bodies. If it were allowed to build up it would kill us. Enzyme are catabolic protein that speed up and regulate all chemical reactions within a living organism. Enzymes lower the activation energy needed, allowing reactions to occur more easily, quickly and more efficiently. Almost all biochemical reactions within living organisms need enzymes. Enzymes are amino acids made from
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
Catalase is an important enzyme that protects cells from oxidative damage, which hydrogen peroxide can cause. It is an incredibly efficient enzyme where one catalase molecule can convert millions of hydrogen peroxide molecules each second.
Enzymes are biological catalysts, which speed up the rate of reaction without being used up during the reaction, which take place in living organisms. They do this by lowering the activation energy. The activation energy is the energy needed to start the reaction.
A catalyst is a substance that increases the rate of reaction (Jim Clark, 2002) and in which is not effected once the reaction has occurred. Catalase are a form of Catalyst that are intended for converting the Hydrogen Peroxide which is produced by cells, into Water and Oxygen. Catalase are found in organic matter such as the liver and potato. The liver houses harmful toxins such as Hydrogen Peroxide, and is why the there is a high concentration of catalase. The potato has a reduced rate of catalase because of the unsophisticated functions of the organic matter. It was found that the liver contained a higher concentration of catalase compared to the low concentration in the potato. This was due to the function of the liver in the digestive
Enzymes are biological catalysts, which accelerate the speed of chemical reactions in the body without being used up or changed in the process. Animals and plants contain enzymes which help break down fats, carbohydrates and proteins into smaller molecules the cells can use to get energy and carry out the processes that allow the plant or animal to survive. Without enzymes, most physiological processes would not take place. Hundreds of different types of enzymes are present in plant and animal cells and each is very specific in its function.
Enzymes are proteins that act as catalysts during a biochemical process. Catalysts are non-changing enzymes that can increase or decrease activation energy to accelerate or slow down a biochemical reaction without using additional energy.
Enzymes are proteins that act as catalysts for reactions. This simply means that enzymes lower the activation energy required for a reaction to take place, allowing a particular reaction to take place much quicker and easier. Specific enzymes only lower the activation energy for specific reactions, and enzymes are shape-specific. The unique folds of the amino
3. Cells use enzymes as biological catalysts to increase or accelerate the rate of reactions, such as those in photosynthesis or glycolysis. This allows reactions to occur under conditions that sustain life.
Enzymes are a key aspect in our everyday life and are a key to sustaining life. They are biological catalysts that help speed up the rate of reactions. They do this by lowering the activation energy of chemical reactions (Biology Department, 2011).
There are thousands of chemical reactions that occur in an organism that make life possible. Most of these chemical reactions occur too slowly on their own. Enzymes are protein catalysts that speed up chemical reactions in a cell. Catalysts are not changed by the reactions they control, and are not used up during the reaction. Enzymes therefore, can be used over and over again. Enzymes are large complex proteins made by the cell and allow chemical reactions to take place at the temperature of the cell. These catalysts are needed in only very small amounts because a single enzyme molecule can complete the same reaction thousands of times in one minute.
An enzyme is a catalyst. Catalysts are known for speeding up the rate of reactions by lowering the activation energy of the biochemical reaction. (Reece et al., 2011)
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:
Abstract: Enzymes are catalysts therefore we can state that they work to start a reaction or speed it up. The chemical transformed due to the enzyme (catalase) is known as the substrate. In this lab the chemical used was hydrogen peroxide because it can be broken down by catalase. The substrate in this lab would be hydrogen peroxide and the enzymes used will be catalase which is found in both potatoes and liver. This substrate will fill the active sites on the enzyme and the reaction will vary based on the concentration of both and the different factors in the experiment. Students placed either liver or potatoes in test tubes with the substrate and observed them at different temperatures as well as with
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.
Enzymes, proteins that act as catalysts, are the most important type of protein[1]. Catalysts speed up chemical reactions and can go without being used up or changed [3] Without enzymes, the biochemical reactions that take place will react too slowly to keep up with the metabolic needs and the life functions of organisms. Catecholase is a reaction between oxygen and catechol [2]. In the presence of oxygen, the removal of two hydrogen atoms oxidizes the compound catechol, as a result of the formation of water [2]. Oxygen is reduced by the addition of two hydrogen atoms, which also forms water, after catechol is