HW#6 Enzyme Essay
It can be seen that enzymes are basically proteins with large molecules.. An enzyme is made up of long natural chains of amino acids linked together by peptide bonds, so it chemically contains carbon, hydrogen, oxygen, nitrogen, and some sulfur. The proteins are tertiary in which they fold up to give the enzyme its active site. The initial level of the enzyme involves the sequence of amino acids. Every amino acid has an amino group, a carboxyl group, a hydrogen group, and an R group that can be different with each amino cell all connecting to the alpha carbon. Based on what the R group is, it can be determined whether or not an amino acid can be uncharged, polar, a base, an acid, or charged. The secondary level then involves
The more acidic a substance is the less oxygen it will produce when going through a chemical reaction. During the Lab “How Do Changes in pH Levels Affect Enzymes Activity”, the researcher conducted an experiment to test the effects that an acidic, neutral, and a base substance will have when combine it with hydrogen peroxide. The data table shows that HCL (acidic substance) barley produced any oxygen at all when it was combining with Hydrogen Peroxide. The pH level for HCL was 2.5; this level indicates that the substance was very acidic. When the H2O and NaOH were tested they produced more bubbles than HCL. NaoH produced a little more bubbles than HCL. The pH that NaoH produced was a 9, which is a base. H2O produced more bubbles than both substances;
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
Introduction:Enzymes are made up of proteins which are produced within living cells and act as catalysts which speed up chemical reactions. They are made up of long chains of amino acids containing carbon, hydrogen, oxygen and nitrogen. Enzymes are structured to be
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These results shown from this experiment led us to conclude that enzymes work best at certain pH rates. For this particular enzyme, pH 7 worked best. When compared to high levels of pH, the lower levels worked better. The wrong level of pH can denature enzymes; therefore finding the right level is essential. The independent variable was the amount of pH, and the dependent being the rate of oxygen. The results are reliable as they are reinforced by the fact that enzymes typically work best at neutral pH
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Hold the IKI spray bottle 25 - 30 cm away from the paper towel, and mist with the IKI solution.
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).
“Enzymes are proteins that have catalytic functions” [1], “that speed up or slow down reactions”[2], “indispensable to maintenance and activity of life”[1]. They are each very specific, and will only work when a particular substrate fits in their active site. An active site is “a region on the surface of an enzyme where the substrate binds, and where the reaction occurs”[2].
I will be using the following items, to test for the experiment for testing the impact of low pH levels on enzymes:
Organisms cannot depend solely on spontaneous reactions for the production of materials because they occur slowly and are not responsive to the organism's needs (Martineau, Dean, et al, Laboratory Manual, 43). In order to speed up the reaction process, cells use enzymes as biological catalysts. Enzymes are able to speed up the reaction through lowering activation energy. Additionally, enzymes facilitate reactions without being consumed (manual,43). Each enzyme acts on a specific molecule or set of molecules referred to as the enzyme's substrate and the results of this reaction are called products (manual 43). As a result, enzymes promote a reaction so that substrates are converted into products on a faster pace (manual 43). Most enzymes are proteins whose structure is determined by its sequence of its amino acids. Enzymes are designed to function the best under physiological conditions of PH and temperature. Any change of these variables that change the conformation of the enzyme will destroy or enhance enzyme activity(manual, 43).
allows it to bind to the same site on the enzyme (b). But there is no
Enzymes are very specific in nature, which helps them in reactions. When an enzyme recognizes its specific substrate, the
The RAS protein was examined, and its significance to involved pathways. This review highlights modern studies to solve problems of constitutively activated RAS. Lysine-104 silences RAS signaling pathways when acetylated. Andrographalide and derivatives inhibit RAS from using GEF to exchange GDP for GTP. Mutant K-RAS cells are selectively killed by lanperisone, a muscle relaxant. R-Ras binds to FlNa, causing overall increases in cell migration, but questionable cell adhesion changes. RAS is capable of modulating circadian rhythm functions through over-expression or under-expression. Modern treatments of RAS mutants can be compounded with newly discovered functions of RAS to gain promising research data.
A substrate is a substance that the enzyme acts on. When an enzyme binds to its substrate at the active site of the enzyme, an enzyme-substrate complex is created. While in the complex, chemical reactions takes place and products are made.