Miguel Pena – Biomedical Engineering

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Presentation transcript:

Genetically Engineered ELP-AMP Protein Polymers for Antimicrobial Materials Miguel Pena – Biomedical Engineering Mentor: Minkyu Kim, Ph.D. – Biomedical Engineering, and Materials Science and Engineering. Project Lead: Chris Camp (Ph.D. Student) – Biomedical Engineering Support: Vy Nguyen (Undergraduate) – Biomedical Engineering 2018 NASA Space Grant Symposium April 14, 2018

Summary of Presentation A major obstacle to overcome How to approach it What we plan to accomplish Our results so far Expected results What the future holds

Antimicrobial Resistance What is it? Why it matters. Alternatives to antimicrobial medications. Our solution.

Antimicrobial Peptides (AMP)

Elastin-like Polypeptide (ELP) Our Solution Elastin-like Polypeptide (ELP)

Our Solution

Our Solution ELP x8,x16,x24, or x36 Provided by Chris Camp

Our Solution ELP

Our Solution Inject into bloodstream Crosslink with ultraviolet light

Methods Exploit the fast reproductive system of bacteria to mass produce our protein

Methods Isolate the cells by using a centrifuge Break open the cells using sonification Extract our protein through inverse transition cycling (ITC) purification Confirm pure sample using protein gels

Preliminary Results S2YS2-H-24x-LL37 ITC Purification Size Std (kDa) 50C Precip S2YS2-H-24x-LL37 ITC Purification Size Std (kDa) HisTag LL37-8x 50C Soluble 4C Precip 4C Soluble ~50C for 10 minutes -> 4C for 10 minutes, pipetting to mix Provided by Chris Camp

Expected Results Texas Tech University, (Ingrole et al., 2014)

Expected Results Zone of inhibition shows where bacterial growth was inhibited We could potentially compare our film to antibiotics If it does not work, then we would see top right Top view of a petri dish

Potential Future Applications Air filtration system Antimicrobial surfaces for spacecraft Treatment for serious infections Sterile implants

Thank You Miguel Pena mp323@email.arizona.edu