Required practical activity
Investigate the effect of antiseptics or antibiotics on bacterial growth using agar plates and measuring zones of inhibition
The effectiveness of antibioticSubstance that controls the spread of bacteria in the body by killing them or stopping them reproducing. or antisepticA substance that kills or stops the growth of germs which cause disease. can be tested experimentally using uncontaminated agar plateA Petri dish that contains agar gel and usually some nutrients. Agar plates are used to culture (grow) bacteria and fungi in the lab..
Method A
This method is an example of aseptic techniquesName given to the laboratory procedures carried out to prevent the contamination of pure cultures of microorganisms..
This allows the selected bacteria to be grown under laboratory conditions, and it requires skill and experience. Additional contaminating bacteria will complicate the experiment and possibly confuse the results. Aseptic technique is vital when the effectiveness of antibacterial substances is being tested.
Preparing the agar plates of a colony of bacteria
- Glass Petri dishes and agar gelA jelly-like substance that is derived from a type of seaweed and used in the lab as a medium on which to grow bacteria and fungi. must be sterilised before use in an autoclaveA strong heated container used to sterilise equipment., or pre-sterilised plastic Petri dishes can be bought.
- Reason 鈥 this will kill any bacteriaSingle-celled microorganisms, some of which are pathogenic in humans, animals and plants. Singular is bacterium. that are present in the solution or on the Petri dishes.
- Pour the sterile agar plates and allow to set fully.
- Reason 鈥 this provides the selected bacterium with all the nutrients needed to grow.
- steriliseTo kill any living organisms, usually microbes that might cause disease, on an object or in a substance. the inoculating loopA small wire loop used to transfer microorganisms from one growth medium to another., by heating it in the Bunsen burner flame.
- Reason - kills any bacteria that are present on the loop.
- Dip the inoculation loop into the micro organismsMicroscopic living things such as archaea, bacteria and some species of eukaryotes. solution and make streaks on the surface of the agar plate.
- Reason 鈥 this allows the bacteria to spread out and to grow in individual colonies on the agar plate. A lawn of bacteria can be produced by using a sterile spreader to evenly spread the bacteria across the whole of the plate.
- Replace the lid as soon as possible, secure with tape. Label and invert the plate, and store upside down.
- Reason -this stops additional unwanted bacteria in the air contaminating the plate. Do not fully seal the lid, as this will stop oxygen reaching the bacterium, and this may encourage harmful anaerobicWithout oxygen. bacteria to grow. Labels are important, as this identifies the growing bacterium.
- Incubate at a maximum temperature of 25掳C in schools and colleges.
- Reason 鈥 this reduces the chance of growing harmful pathogens. Hospital laboratories would incubate plates at 37掳C (body temperature) to allow quick growth and identification.
Method B
Adding antibiotic or antiseptic soaked patches to pre-prepared agar plates.
By adding filter paper soaked in a variety of anti-microbial solutions to the pre-prepared agar plate (method A), the effective of the solutions can be tested experimentally. A clear area (zone of inhibition) indicates that the bacteria have been killed by the solution or have not been able to reproduce.
- Soak filter paper disks in a variety of solutions, use either different concentrations of the same solution, or a variety of different solutions.
- Reason 鈥 this will kill any bacteria that are present in the solution or on the petri dishes.
- Pour the sterile agar plates and allow to set fully.
- Reason 鈥 the effectiveness of the solutions at killing the bacteria can be tested.
- Measure the clear area around the soaked filter paper disks. A control disk must be also included.
- Reason - size of zone indicates the effect of the substance tested on the growth of the specific bacterium.