Wednesday, May 6, 2020
Sordaria Lab Report free essay sample
The SFS receives multiple times the UV radiation from the sun that the NFS receives, has fluctuating weather, and is generally an arid and less hospitable region compared to the temperate, stable environment of the NFS. Scientists collected wild type Sordaria fimicola inhabiting both slopes and discovered that the strains from the SFS exhibited higher mutation rates (more crossover of genes) than those from the NFS. This observation could be attributed to the conditions of the SFS, which are far harsher and more unpredictable than those of the NFS; organisms living in those kind of conditions reasonably should exhibit greater mutation and crossover of genes in order to boost genetic diversity which should allow for organisms to better adapt to changing conditions and still maintain their fitness. This experiment is meant to study this phenomenon under controlled lab conditions to observe how the crossover frequencies of S. imicola may change under the ââ¬Å"environmental stressesâ⬠of standard lab conditions. We will write a custom essay sample on Sordaria Lab Report or any similar topic specifically for you Do Not WasteYour Time HIRE WRITER Only 13.90 / page The general hypothesis for this experiment is that if increased crossover and mutation of DNA occurs in organisms when they are subjected to more extreme and variable conditions, then the S. fimicola strains grown in ââ¬Å"optimalâ⬠and constant laboratory conditions should exhibit less crossover of genes. Without any pressing environmental stresses on the fungi, the tendency for genes to switch positions and need for increased genetic diversity should in fact be diminished. Two different strains of S. fimicola (tan mutant strain, gray wild type strain) will be incubated and allowed to grow in a petri dish for two weeks; after that, mature perithecia will have developed in areas where the two strainsââ¬â¢ growth overlapped. The perithecia are to be scraped from the dish and prepared into a squash, which will be examined under a microscope. The final step includes scoring a sample of asci and recording the amounts of each of the three possible patterns before calculating the percentage of crossover in the entire sample. Materials and Methods: The experiment was divided into two stages: growing two different mating types of fungi in a single location and allowing them to exchange genes, as well making squashes of the mature perithecia and examining them to determine the degree of recombination that the final asci exhibited following the growth period. The first part begins with retrieving an agar plate and using a marker to draw on the bottom of the plate in order to divide it into four separate quadrants. The four quadrants should each also be marked with a letter for the corresponding mating type that will grow there: two pairs of fungi samples will be used so one should mark two opposing corners of the plate with ââ¬Å"Tâ⬠(tan strain), and other pair of opposing corners with ââ¬Å"Wâ⬠(wild type strain). This set up (pictured below in Figure 1) makes sure strains are alternated so no two adjacent quadrants have the same strain, in which case no recombination could occur. Figure 1: The marked up plate should then be taken to the lab in order to place the Sordaria samples onto the four sections of agar. Retrieve a scalpel and use a disinfecting wipe to clean the scalpel as well as the work surface; using the cleaned scalpel cut two small squares of the agar containing the hyphae of the tan fungus and place them in their corresponding sections before repeating these step with the wild type fungus. Finally, disinfect the scalpel before returning it and seal the mating plate with tape before allowing it to incubate at room temperature for a two-week growth period. Once the two weeks have passed, retrieve the plate and draw and label a diagram of the contents following the growth period in the results section. There should be an observable line of black dots, the mature perithecia, growing along the dividing lines that separate the four quadrants. Next, open the plate and using an inoculating loop, scrape some of the perithecia from the middle of one of the four dividing lines before depositing the sample onto a microscope slide. Use a squirt bottle of water to place a drop of water on top of the sample before covering it with a cover slip. Using a pencil eraser or your finger, apply slight pressure to the sample to release the asci from the perithecia without releasing the individual spores and slide around the cover slip to spread out the asci. Place the slide under a compound light microscope and observe the sample at 100X magnification in order to find the asci, before increasing the magnification to 400X for a clearer view. to Draw a sketch of the perithecium squash and asci in the results section. The final step of the experiment involves scoring (counting) ~10 clearly visible asci and recording how many of each of the three possible patterns. Following scoring oneââ¬â¢s individual sample, clean up the inoculating loop, microscope slide, and cover slip, and put away the microscope. Collaborate with another person or group and combine individual data in order to complete Table 2 of the results section. After the entire section of students is done scoring their asci, the TA will combine the numbers so that the section data can be recorded in Table 3 of the results section. Table 4 should include the results from all the students in the course, which will be provided by the course coordinator.
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