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   <h1 style="color:black;" class="w3-center w3-padding-large">What is antibiotic resistance?</h1><br>  
 
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   <p style="color:black;" class="body-cont w4-center">  If you’ve ever gone to the doctor for an ear ache, sinus infection, strep throat, or acne, you’ve probably been prescribed an antibiotic. Antibiotics fight bacteria by either stopping them from reproducing or destroying them. For example, the common antibiotic penicillin works by keeping a bacterium from building a cell wall. However, over usage of antibiotics has contributed to bacteria mutating, thereby becoming resistant to conventional antibiotics. As those bacteria go on to reproduce, in no time does a strain of bacteria become resistant to drugs.  
 
   <p style="color:black;" class="body-cont w4-center">  If you’ve ever gone to the doctor for an ear ache, sinus infection, strep throat, or acne, you’ve probably been prescribed an antibiotic. Antibiotics fight bacteria by either stopping them from reproducing or destroying them. For example, the common antibiotic penicillin works by keeping a bacterium from building a cell wall. However, over usage of antibiotics has contributed to bacteria mutating, thereby becoming resistant to conventional antibiotics. As those bacteria go on to reproduce, in no time does a strain of bacteria become resistant to drugs.  
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   <h1 style="color:white;" class="w3-center w3-padding-large">What is CRISPR-CAS9 system?</h1><br>  
 
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   <h1 style="margin-left:5%; margin-right:60%;"class="w3-padding-large">Why does CRISPR-CAS9 matter?</h1><br>
 
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Revision as of 16:27, 8 September 2017

Northwestern Template

VesiCure.

What is antibiotic resistance?


If you’ve ever gone to the doctor for an ear ache, sinus infection, strep throat, or acne, you’ve probably been prescribed an antibiotic. Antibiotics fight bacteria by either stopping them from reproducing or destroying them. For example, the common antibiotic penicillin works by keeping a bacterium from building a cell wall. However, over usage of antibiotics has contributed to bacteria mutating, thereby becoming resistant to conventional antibiotics. As those bacteria go on to reproduce, in no time does a strain of bacteria become resistant to drugs.

Antibiotic resistance is slowly becoming the “new black” in the world of medicine. At an ever-increasing rate, common illnesses ranging from Strep Throat to Gonorrhea are outsmarting us at every turn. Unless a solution is found to combat drug resistant infections, these common ailments could prove to be fatal.

What is CRISPR-CAS9 system?


Discovered in 2012 at UC Berkely, CRISPR-CAS9 is the most powerful gene editing tool to date. When bacteria are under attack by viruses, their immune system grabs viral RNA and “tucks” the sequence into CRISPR-short for “clustered regularly interspaced short palindromic repeats” located in the viruses genome. The next time the virus attacks the bacterium is prepared: using the appropriate CRISPR sequence in the genome, a guide RNA (gRNA) is synthesized that directs a protein, Cas9, to the viral DNA. Acting as molecular scissors, the Cas-gRNA complex binds to the viral DNA and dices up the genetic material.


Why does CRISPR-CAS9 matter?


An application of CRISPR-CAS9 is that of treating drug resistant infections. CRISPR-CAS9 should be able to cut out the resistant gene in an antibiotic resistant bacterium, thereby making the bacteria susceptible to antibiotics. However, for CAS9 to be effective, it has to be successfully delivered. Our team aims to use signal peptide-protein fusions to direct Cas9 and a guiding gRNA sequence into OMVs. OMVs are naturally occurring extracellular vesicles that are used for cross talk between bacteria. Hence, they make strong candidates for transportation of Cas9/gRNA to target bacteria.


Check out the video below to learn more about our project!