There are two types of staining: simple staining and differential staining. Staining is used to identify unknown bacterium including the structures within it and aseptic techniques should always be used. Bacterium is a transparent cell. Due to this, bacteria has to be stained and identified to be categorized. During simple staining, a sample of bacteria is taken from a culture. First, water is placed on a slide with a loop then, the bacteria is scratched onto the slide. It must dry completely before it is fixed to the slide with the use of a Bunsen burner. One stain such as crystal violet is placed on the slide for one minute to add color. Once it has been rinsed off and dried with blotting paper it can be viewed under a microscope. A differential …show more content…
In gram positive, the cell wall is mostly made up of peptidoglycan; therefore, it stains purple due to the absorption of the primary stain. In gram negative, the cell wall has a thin layer of peptidoglycan and a lipopolysaccharide layer allowing the counter stain to have an effect causing a pink color. To gram stain a bacterium the steps of simple staining are used with a mordant like crystal violet, however it is not dried off until the end of the process. The slide must be rinsed between every step of the gram staining process after crystal violet is used. A mordant is then placed on the slide for one minute to strengthen the color of the stain. Alcohol or acetone is used to decolorize the stain allow it to sit for ten to fifteen seconds. A counterstained is used to add color back to the colorless effect of the decolorizer. The safranin must stay on a slide for one minute before the final rinse, then dried on blotting paper to be seen under a microscope. It can finally be distinguished as a gram positive or gram …show more content…
Bacteria that have a flagella are known as motile and the bacteria that do not are non-motile. The motility test is conducted by flaming an inoculation needle. After grazing the top of a culture, then placing the needle straight down into a tube of the motility media and lifting the needle straight out. Triphenyltetrazolium chloride (TTC) is turns the bacteria to a red color making it easier to see if the results are motile or non-motile. If the bacteria forms a straight line it is non-motile, however if the bacteria is spread throughout the tube it is classified as being
The following tests according to the lab manual were performed: gram stain, fermentation tubes, methyl red, vogues proskauer, sulfur, indole, motility and growing it up on MacConkey agar. The gram stain was performed incorrectly the first time. This is because the decolorizer was not on the bacterium slide for long enough, giving a false outcome.
The Gram stain was used to determine if the bacteria was gram positive or negative. A negative test shows a pink color and a positive test is a purple color. When a bacterium is negative it is because it has an outer membrane and a thin layer of peptidoglycan that is much harder to stain. A positive bacterium has a thick layer of peptidoglycan and no outer membrane that can be penetrated by crystal violet.
The next step of the project included preparing a Gram stain to discover the cell shape, arrangement, and if the bacteria is gram positive or
Next I performed a KOH test to further confirm that my organism was a Gram-negative species. For the KOH test, I added 3 drops of 10% potassium hydroxide (KOH) to a small drop of distilled water onto a clean microscope slide, transferred a visible clump of organism to the KOH solution using my inoculating loop. I than mixed the cells into the solution using small, circular motions for 60 seconds and then lifted up the loop to look for what appears to be a “stringing” affect which means it’s confirmed that it is gram- negative species. Next, I created a streak plate using nutrient agar so that I could see pure culture of my organism. I aseptically obtained a loop full of my organism and gently inoculated one quarter of the nutrient agar plate by running the loop back and forth across the surface. I then flame sterilized the inoculating loop, allowing it to cool for 10 seconds, and then streaked the organism from quadrant I into quadrant II using a zigzag motion technique. I repeated those steps streaking from quadrant II to quadrant III and then streaking from quadrant III to quadrant IV. Once completed, I put the streak plate in the incubator at 37° for 24-48 hours. 48 hours later, I check my streak plate and it had a lot of growth on it. I was able to determine that the organism was definitely an off white color, opaque. The IV quadrant was the quadrant that best
2) Record the shape of the bacteria, the arrangement of the bacteria, and the gram staining characteristics.
This experiment was given to us to utilized previous knowledge learned throughout the semester to identify a gram negative unknown bacterium. We had to first learn the difference between a gram negative and a gram positive organism. We started off with doing gram stains to determine whether it was positive or negative. Based on the gram stains, a gram positive stains purple and a gram negative stains pink. A gram positive stains purple because the cell walls is made of a thick peptidoglycan layer and doesn’t
The drops of crystal violets, approximately 15 drops, were flooded until the smear were all covered and then allowing resting for one to two minutes. After two minutes, the slide was titled over the sink and washed off, with the distilled water bottle, by aiming the stream of water above the smear. The specimen appeared blue-violet when observed with the naked eye. The drops of Gram’s iodine were applied on the slide until covered and then allowed to react for one minute or more. After the time elapsed, the slide was rinsed again with distilled water following immediate drops of Gram stain decolorizer added one drop at a time.
The purpose of this lab was to identify an unknown microorganism using lab techniques. The importance of identifying microorganisms is essential to the survival of humans, expansion of modern day medicine and improvement of quality of life. In 1884, Hans Christian Gram designed a differential staining technique to identify bacteria that would change the future of microbiology. He give rise to a staining process, known as the Gram stain to differentiate microorganisms into two groups between positive and negative gram staining microorganisms. The Gram stain is essential in a lab technique as it distinguishes the cells based on the physical properties of the individual cell walls, and is almost always the first test preformed to differentiate a microorganism. The identification of weather a microorganism is gram positive or negative can revel the bacteria’s virulence, cell wall structure, resistance to antibiotics, resistance to physical disruptions and so much more. In order to identify the unknown provided, unknown #27, the Gram stain was the first test preformed. After discovering that the unknown bacterium was indefinitely a gram positive microorganism, the vast possibilities were narrowed down. However, In order to more definitively identify the unknown, the next step was to preform biochemical tests. A biochemical test identifies metabolic
Gram staining is a technique used to determine if the bacteria is Gram positive or Gram- negative. Gram staining procedure uses crystal violet stain, iodine moderator, alcohol decolorizer and safarin counter stain. In Gram- negative bacteria the primary stain will be washed out with the decolorizer and it will be stained with the counterstain. Whereas in Gram-positive bacteria the primary stain will not leave the cell wall. This difference comes from difference in the structure of the cell wall that retains the stain.
The test tube was labeled with the bacteria identifying number. The cap on test tube was removed, and the lip of the test tube was flamed. Next, the Bunsen burner was used to sterilize the inoculating loop. Then, bacteria were picked up from the working plate with the loop and the agar was inoculated. The loop was then re-flamed. Finally, the plate was placed in the 37˚C incubator and left to sit for 48 hours and any changes in color were observed. A negative result appears green, and a positive result appears blue. This is because it tests for the organism’s ability to use citrate as its sole source of carbon, and if it does then it produces ammonia and ammonium hydroxide which make the medium basic, changing the green agar blue (Leboffe & Pierce,
Crystal violet stains the cell of the bacteria and is placed over the heat fixed slide for one minute then rinsed with H2O. The mordant that binds the stain is gram’s iodine and is recommended to be present on the slide for one minute. Alcohol is used as the decolorizer and is dripped over the recently rinsed slide until the slide runs slightly blue. If the bacterium retains the crystal violet it is due to the thicker peptidoglycan in the cell wall (gram-positive). The bacteria will then be stained with the counterstain safranin for 45 seconds. When crystal violet is not retained in the cell wall of the bacterium it will stain pink (gram-negative). A gram stain was immediately performed with the recently inoculated streak plate. An inoculating loop was used to gather some of the bacteria from an isolated colony. The loop was placed on a new slide and the transferred bacterium to the slide. The slide was dried, heat-fixed, and the gram stain process just described was completed. After microscopic analysis, it was determined the first unknown bacteria was a gram-positive cocci. The second unknown was determined to be gram-negative cocci. With this information a set group of test decided and performed based on the Unknown Bacteria Flow Chart as provided in the lab manual (Pg.) these test and the results are shown in record on the following pages. These are separated for the gram positive and the gram negative
You can grow microorganisms in liquid media or on solid media. Most bacteria can be grown in labs as long as the media contain a source of the major nutrients; carbon, nitrogen, sulphur, and phosphorous. They may also need to have other nutrients. These nutrients are made into a broth and the pH and salinity can be adjusted. The nutrient broth is placed in test tubes, which are plugged with cotton wool, capped with foil and then sterilised in an autoclave, at 121c for 20minutes. These tubes are then cooled before they are inoculated. To prepare the streak plates we dipped an inoculating loop into ethanol then placed it in the flame until the loop glowed red. Still holding the inoculating loop by its handle we removed the lid from
Figure #1 This picture show the gram stain of unknown #3. The image is under 1000x magnification using oil immersion technique. Gram (-)
Table 1 shows the steps and color results after each reagent was added to bacterial smear slide. Before any reagent was added to the heat fixed bacterial slides unknown bacteria was colorless. The primary stains reagent, Crystal Violet was added to the slide the unknown bacteria color was purple. Then, Iodine mordant the color of cells still remained purple. After adding the decolorizer alcohol gram + would remain purple and the purple color from the gram- would be removed and it would become colorless. The last counterstain safranin was added to the slide a gram+ would remain purple and the gram – would turn pink or reddish in color. Meanwhile, after the gram staining, one were able to identify under the microscope that unknown bacteria
Escherichia is a genus of aerobic gram-negative rod-shaped bacteria of the family Enterobacteriaceae that form acid and gas on many carbohydrates, such as dextrose and lactose, but not acetone, which include occasional pathogenic forms, including some strains of E. coli which are normally present in the human intestine as well as other forms which typically occur in soil and water (Webster). Escherichia coli is a gram-negative bacilli that rarely varies in shape and size and when stained often resemble safety pins because the ends of some bacilli stain more densely than does the middle; which is a characteristic called bipolar staining which is common in enteric gram-negative bacilli (ASM). Gram negative cells have a thin cell wall layer and will stain red to pink. The staining process is the same as Gram positive, requiring four steps: applying a primary stain, adding a mordant, then rapid decolorization and completing with a counter stain. Applying the alcohol for decolorization dissolves the outer membrane and leaves small holes in the thin peptidoglycan layer through which the crystal violet-iodine diffuse. The gram-negative bacteria is colorless after the decolorization; therefore adding safranin