The Most Effective Antibiotic On Bacteria Biology Essay

The Most Effective Antibiotic On Bacteria Biology Essay in the first place bacterium can multiply and cause symptoms our immune system can usu all toldy destroy them. We fox special white blood cells that attack denigratory bacteria. Even if symptoms do occur, our immune system can usually cope and fight off the infection. There argon occasions, however, when it is all too much and our bodies take away some help from antibiotic drugs.The first antibiotic was penicillin. Such penicillin-related antibiotics as ampicillin, amoxicillin and benzylpenicilllin atomic number 18 widely use today to treat a variety of infections these antibiotics have been around for a long time. There are several incompatible types of modern antibiotics and they are only available with a doctors prescription in industrialized countries.An antibiotic is given for the treatment of an infection caused by bacteria. They target only bacteria they do non attack other organisms, much(prenominal) as fun gus kingdom or viruses. If you have an infection it is important to know whether it is caused by bacteria, and not a virus or fungus. Most upper respiratory tract infections, such as the common cold and sore throats are generally caused by viruses antibiotics do not work against viruses.Antibiotics are overused or used in makely in that location is a chance that the bacteria will become resistant the antibiotic becomes less effective against that type of bacterium.A broad-spectrum antibiotic can be used to treat a wide range of infections. A narrow-spectrum antibiotic is only effective against a few types of bacteria. There are antibiotics that attack aerobic bacteria, maculation others work against anaerobic bacteria. Aerobic bacteria need oxygen, while anaerobic bacteria dont.Antibiotics may be given beforehand, to prevent infection, as might be the case before surgery. This is called prophylactic use of antibiotics. They are commonly used before bowel and orthopedic surgery.B acteriaThe word bacteria is the plural of bacterium. chiliadmatically the headline should just say What are bacteria? The incorrect usage has been included in the headline to remind readers that it is wrong and hopefully help correct an increasingly common mistake in the English language. Bacteria are tiny living beings (microorganisms) they are neither plants nor animals they belong to a group all by themselves. Bacteria are tiny single-cell microorganisms, usually a few micrometers in length that normally exist together in millions.A gram of soil typically keep backs ab emerge 40 million bacterial cells. A milliliter of fresh water usually holds about one million bacterial cells.Planet Earth is estimated to hold at least 5 nonillion bacteria. Scientists say that much of Earths biomass is made up of bacteria.5 nonillion = 5,000,000,000,000,000,000,000,000,000,000 (or 51030)(Nonillion = 30 zeros in USA English. In British English it equals 54 zeros. This text uses the American meaning)Bacterial cell wallsBacterial cell walls consist of spirit level of peptidoglycan which is made up of mevery line of latitude polysaccharide chains with short peptide cross-linkage forming an enormous molecule with net-like structure. However, there are two different types of bacterial cell wall, which can be bossy by Gram staining, a staining technique developed by Christian Gram in 1984 and still in use today. Before staining, bacteria are colorless. The cell walls of Gram-positive bacteria have a thick layer of peptidoglycan containing chemicals such as teichoic acid within their net-like structure. The crystal violet in the stain binds to the teichoic acid and resists decolouring in the rest of the process, leaving the positive purple/blue color.The cell walls of Gram-negative bacteria have a filamentlike layer of peptidoglycan with ni teichoic acid between the two layers of membranes and then an outer membrane-like layer made up of lipopolisaccharides. Any crystal v iolet which does not bind is pronto decolourised and replaced with red safranine in the Gram stain. So cells appear red.PROBLEM STATEMENTWhich antibiotic is the most effective on bacteria?APPARATUS two hundred ml of micropipette, conical flask, forceps, 100 ml beakerMATERIALSPetri dish, sample of E.coli and staphylococcus, 3 different types of antibiotic which are carbenicilin, streptomycin and tetracycline, distilled water, Dettol handwash, 75 % of ethanol, agar, tissue paperVARIABLESFixed variable masses of bacteriaManipulated variable types of antibioticResponding variable area of inhibition zoneHYPOTHESISThe most effective antibiotic to inhibit bacteria growth is ampicillinPROCEDUREFirst of all, wash out hands with the soap or handwash. The working area is sprayed thoroughly with the disinfectant spray. It is left for at least 10 minutes, and wiped with a paper towel.An agar plate essayded with is prepared. The petri dish is labeled on the base at the edge out of name, the date and type of bacterium it is inoculated with by usng permanent marker pen.After finishing marking the petri dish, the Esterichia coli bacteria is poured by using micropipette into the petri dish on the marked labeling and distribute it evenly.The agar is taken out from 60 C oven. The mouth of the conical flask containing the agar is warmed in the flame to prevent any different bacteria from touch grow inside it.The agar is left for 10 minutes for it to solidify before putting the sterile disc dip into three different antibiotics.The forceps are flamed and used them to pick up disc or Mast ring. It is dip into the antibiotic solution and is placed firmly in the centre of the agar.The dish is taped firm with two pieces of adhesive tape and kept it upside down at room temperature for 24 hours.Step 1 until steps 7 are recurrent by using another type of bacteria which is staphylococcus.Our hands are washed with soap or handwash and the bench is cleaned again using the 75 % of eth anol.After the incubation, the plate should be styleed at carefully but do not open it. Where bacteria have grown the plate will look opaque, but where the antibiotics have inhibited growth, clear zones called inhibition zones will be seen.The diameter of the inhibition zones is measured in milimetres and the information is used to decide which antibiotic is most effective at inhibiting the growth of the bacterium.The data is collected from other members of the class who used the other bacterial cultures.PRECAUTIONSWhen carrying out the try out, we should work very close to the Bunsen burner to prevent any impurities in each machine that is used.Do not seal completely the upper and lower conk out of petri dish.Both petri dishes contain different bacteria need to be inverted to prevent the water vapour from forming at the upper site of the agar. It might affected or shade the inhibition zones that are formed inside the dish.Make sure our hands are constantly being wash with dis infectant before touching any apparatus.Before using any apparatus, they should be sterile to prevent any unwanted impurities to grow in the petri dish.Do not open the petri dish after incubation to prevent from infection.RESULTSAntibioticDiameter of inhibition area/ cmInhibition area / cmE. ColiStaphylococcusE.ColiStaphylococcusTetracyclin2.63.05.37.0Streptomycin1.62.08.03.1Carbenicillin1.53.54.99.6Ampicillin3.63.810.211.3Control0000Explanation of the dataTable above shows the area of inhibition zone of the bacteria growth on two different bacteria. Four types of antibiotics are used to be investigated which is the most effective on a particular bacteria. They are tetracycline, streptomycin, carbenicillin and ampicillin. Whereas two types of bacteria are used which are staphylococcus and Esterichia Coli.For E.coli, ampicilin showed the greatest inhibition area of bacteria growth with 10.2 cm. Another antibiotic that showed the closest reading is streptomycin. Tetacyclin and carbeni cilin showed 5.3 cm and 4.9 cm respectively. This result intelligibly shown that ampicilin is the most effective antibiotic to inhibit the growth of E.coli. Besides that, E.coli is a gram negative bacteria. The cell walls of Gram-negative bacteria have a thinner layer of peptidoglycan with no teichoic acid between the two layers of membranes and then an outer membrane-like layer made up of lipopolisaccharides.In addition to that, Staphylococcus also had a higher inhibition zone of bacteria on ampicilin. Other bacterias have no effect as great as ampicilin which can be flip over as a strong antibiotic. Staphy is a gram positive bacteria. The cell walls of Gram-positive bacteria have a thick layer of peptidoglycan containing chemicals such as teichoic acid within their net-like structure. The crystal violet in the stain binds to the teichoic acid and resists decolouring in the rest of the process, leaving the positive purple/blue color. That is why ampicilin is give tongue to to be the most effective antibiotic on both bacterias.LimitationsThere are some limitations that cannot be avoided when carrying out the experiment. The first one was every apparatus that we used had been sterile by the laboratory assistant. Thus we had to wash our hands thoroughly before touching anything. We even could not talk during the preparation. The fuss was we carried out the experiment on the labs table, instead of using the cupboard fume to maintain the sterile apparatus. Thus, there might be some of the apparatus that we were using had been contaminated. This arrest might affect the reliability of the experiment hence the expected results might not get at the end of the experiment.Besides that, we had to wash our hands by using the dettol hand soap before we start and end the experiment. We had to remove all the impurities and bacteria and that was the purpose of washing hand. The problem rose as we did not know whether we had washed our hand to the maximum cleanliness. Con sequently, all the apparatus and materials that we used might be affected by our hand. This is done so that there are no infections or contaminations on the agar that might give problems later.Sources of errorThere are some sources of error when carrying out this experiment. Firstly, we prepared the experiment at room temperature. It was supposed to carry out in sterile medium to prevent anything from affecting during the preparation of bacteria and antibiotics.Next, the major problem that could be seen during the experiment was most of the groups could not be able to solidify their agar to the maximum hardness. Consequently, when inverting the petri dish, all its contents would be messy inside the petri dish and the disc had abstruse to one another. Thus, the antibiotics on each disc also had mixed that could affected the whole result. To overcome this problem, students should let the agar solidify before inverting the petri dish. Another problem was some of the groups do not inve rt their petri dish before keeping it inside the incubator. This would cause the water vapour to form at the upper part of the petri dish. It would also affect the growth of the bacteria in agar.Fourth, the layer of agar inside the petri dish was too thin that caused it fell to the bottom when inverting it. Besides wrecking the shape of the agar and the position of the discs in the agar, the thin layer of agar also inhibits the growth of bacteria because it lacked of nutrients. To prevent this, the layer of agar should be half(prenominal) of the petri dish.Further workTo get more reliable and accurate result, this experiment should be repeated by varying the temperature to investigate the activity of antibiotic on bacteria. This means that increase the temperature would cause the antibiotic to act more rapidly compared to the temperature that we used before. Thus we do not have to wait for 24 hours to see the inhibition zone. This manipulated variable also do not waste the time co nsuming for the experiment. Moreover, as the antibiotic shows more faster effect, thus the bacteria and antibiotic should be put in separately different petri dish to prevent it from overlapping.CONCLUSIONThe most effective antibiotic is ampicilin.The hypothesis is aceepted.Words = 2200