Antibiotics vs. Bacteriophages Science Fair Projects

Bacteria Projects

Bacteria make an excellent test subject for science fair projects. You can examine many aspects of bacteria including their resistency to antibiotics, their shape, their life cylce and their ability to reproduce.

Objectives/Goals

This project explores the effects of antibiotics on the efficaciousness of bacteriophages on bacteria. I hypothesize that at certain dilutions, the phage will not have any effect on the bacteria due to the absence or alteration of some part of the bacterium which acts as a marker for the likely parasite.

Test bacteria on any surface with the Surface Microbes Science Fair Projects Kit: after hand sanitizer, hands, disinfectant.. for example. You can use antibiotics to test the bacteria too.

Anytime you want to test how many bacteria are On Top of a surface like a desk, skin, chicken, computer keyboard, bread dough, a hard piece of chocolate, cheese, inside of an animal's cheek, etc. then use the surface experimenter kit. The kit will let you calculate how many bacteria there are per unit surface area on the object. You can also test for e-coli, however, only the microbe water kit will let you distinguish e. coli from other coliforms and bacteria.

Methods/Materials

The project consisted of two tasks which led me to my findings. The first task was to find dilutions where it would be easy to see that the bacteria had been affected by the antibiotic but were not completely destroyed. ANOVA and T-tests were used to prove significances in differences. The second phase consisted of two further sub-experiments: first were the actual tests with the bacteriophage and antibiotics accounting for all combinations and positive and negative controls. The second sub-experiment was to further understand what changes had occurred to the cell structure using a modified gram-staining procedure I developed.

Results

All acquired data and research was compiled into two categories defined by the mode of action of each antibiotic.

Exteriorly Resistant Strain:
Penicillin destroys bacteria by targeting the peptidoglycan layer of the bacterium's cell wall. Because the ompC receptors are located on the lipopolysaccharide layer, these too begin to denature reducing the chances of a phage latch-on. This would present a temporary inconvenience which could possibly confuse those administering the treatment. From this we can deduce that using penicillin in combination with phage therapy would not be a good decision in vivo.

Long-term Genetic Resistance:
Tetracycline works by halting the action of the 30S ribosome (one in charge of creating proteins used throughout the cell wall). Because this is a genetic alteration dealing with the blockage of the aminoacyl-tRNA, if the bacterium survives the treatment, a phage resistant strain will be produced. Being a genetic trait also means that the resistance can have a prolonged negative effect on the efficaciousness of phage therapy.

Conclusions/Discussion

In conclusion, caution is the word when combining antibiotic and bacteriophage therapies; "ultra bugs" may be produced when both treatments are used in unison. Therefore, we must make sure to have a well thought out transition in order for such a natural, self-bettering treatment to last for many future. 3rd party contributor

Life science fair projects ask questions that need to be answered.