Effect of Temperature on Membrane Permeability Beetroot

Effect of Temperature on Membrane Permeability BeetrootIn this investigation I shall find prohibited the relationship amongst the amounts of leakage of beetroot pigment into water under various range of temperatures. Furthermore, I will in any case investigate if there is a correlation amidst absorbency and temperature.HypothesisSince the temperatures are high, it is possible that the phospholipids in the prison cadre tissue layer will move faster. This will inevitably result in the membrane becoming for permeable. Therefore, I predict that, there will be a positive relationship mingled with permeability and temperature. I also predict that there will be a positive correlation between the ii variables, which means as the temperature increases the absorbency will inevitably increase.Null HypothesisThere will be no relationship between the rise in temperature and the amount of beetroot pigment leaking into the water.To give me a visual perception of my obtained results compare d to that of the both other groups, I will represent the results in a form of a scatter diagram/graph.I will use the Spearman Rank Statistical test to carry unwrap a statistical analysis of my results. This will allow me to establish a significant relationship between the dickens sets of data, which are the temperature and the absorbency.To work out the significant relationship I will be victimization the following formulaR = 1 6 DN = no. of pairs of measurements that I consecrate, which is 7.n (n 1)R = 1 6 x 2n (n 1)R = 1 6 x 27 (7 1)R = 1 12336R = 0.96I have been provided with a table, which manoeuvres that for any n value there is a critical value. For 7 pairs of measurements the critical value is 0.79. If R is greater than or equal to the critical value indicated in the table, than there is a significant relationship between my sets of data.Rs = 0.96 0.79. This indicates that there is a correlation between temperature and the absorbency. I also know that I have a p ositive correlation, as 0.96 is a positive value.I also need to work carry out a Spearmans rank test using my average value of absorbency, which includes my own set of results as well as the two other pooled results.Rs from my average value of absorbency is identical to the previous Rs. This clearly means that I have successfully managed to support the fact that there is a positive correlation between absorbency and temperature. Therefore, I can disclaim my Null Hypothesis, which states otherwise.The first graph, which is a scatter diagram of pool results, displays my results alongside with two other students. By carefully comparing the graph I have noticed that all the results indicate the same pattern of a positive correlation. However, I have noticed that one set of results had produced an anomalies result. Therefore, I intend to discuss possible limitation and problems, which may have ca employ this. The graph as well as the statistical analysis both indicates that my predicti on was correct, and as a result of this I can discard my null hypothesis.Scientific KnowledgeIn the cells of a beetroot plant, substances called anthocyanin, which are common plant pigments, is contained at bottom the plasma membrane. This substance is a glycosides that is water-soluble with some of the sugar groups removed. The red/purple color of the being is produced from the anthocyanin, which in turn contains a positive charge distributed over the chemical ring system. A discredited beetroot cell with a broken membrane would initiate the anthocyanin bleeding out of the cell analogous a dye. This aspect could be used to test the conditions that affect the integrity of the cell membrane.The cell membrane in a beetroot plant is made up of a phospholipids bi-layer, which forms a fluid arial mosaic structure. If the temperature were increased the cell membrane would gain high kinetic energy and vibrate vigorously, causing the phospholipids bi-layer to break, which in turn would increase the size of the pores. As a result, when the temperature continues to raise the plasma membrane of the beetroot cell will rupture. This due to the fact that the phospholipids bi-layer, which forms the cell membrane, is made of proteins, and as the kinetic theory states with increased temperature molecules in the protein will receive high energy and vibrate vigorously. For that reason, above the optimum temperature, the bonds holding the protein structure unneurotic will be broken, thus the proteins are denatured. This means at higher temperatures more of the pigment or anthocyanin would leak out, in turn increasing the rate of diffusion. As a result I have decided to find out the temperature variable and use the colour change, caused by the anthocyanin as the independent variable. The results, which I received, seem to support this fact, in that as the temperature increased the percentage transmission of light read by the colorimeter decreased.Evaluation of EvidenceThe gra ph produced from my results seem to illustrate the same trend as the two pooled results, which is that there is a direct proportionality between the increase in temperature and the absorbance. This indicates that my results were somewhat reliable. Throughout the try I used a syringe for measuring volume, which consequently would have increased precision, as this assured the measurements used were to the nearest millimetre. Moreover, I also used a stopwatch, which ensured that the time in which I allowed apiece set of beetroot discs to be heated in water was kept constant. I also used the same cork borer to cut out each beetroot piston chamber, which indicates that all the beetroot cylinder should have been more or less identical to each other.