Molecular Medicine | USF Health

Considered the vanguard of the new millennium in which science truly complements the art of medicine, molecular medicine strives to understand the molecules key to normal body function and the pathogenesis of disease and to design molecular tools for diagnosis, treatment and prevention. Recent changes in research and scholarship in the biomedical sciences has directed attention to the development and training of students who are able to cross the barriers of traditional disciplines and embrace the concepts of interdisciplinary approaches to biomedical problems. The Master's of Science in Medical Sciences, Molecular Medicine concentration, has been developed to provide a novel interdisciplinary and concentrated program of study that is designed for students interested in either future doctoral or professional programs in the biomedical sciences. The program integrates several disciplines, including biochemistry, molecular biology, genetics, genomics, microbiology, immunology, virology and biomedical ethics to provide a solid medically-relevant foundation. The rigorous program allows students to demonstrate their full academic ability for future graduate programs or medical school. The interdisciplinary program promotes the broad intellectual focus required of future graduate students in the biomedical sciences or health-care profession. The courses integrate modern teaching methods with extensive student participation designed to improve their oral and presentation skills that are critical to their future professional development.

Jonna Ocampo, an alumna of the Molecular Medicine concentration, has had many notable accomplishments in the field of Molecular Medicine. While enrolled, she worked in the labs of Dr. Caralina Marin de Evsikova and Dr. Alexei Evsikov. During her time in the lab, sheresearched metabolic disease in the model organism Caenorhabditis elegans utilizing techniques such as DNA Sequencing, RNA interference, and Bioinformatics analysis. Additionally, she conducted NASA Florida Space research on Transposon Expression Changes Induced by Simulated Microgravity as an area of priority that aligns with the NASA Human Exploration and Operations (HEO) Mission Directorate for Space Life and Physical Sciences Research & Applications.

Jonna also conducted research in Chemistry and Molecular Medicine with Dr. Bill Baker and Dr. Xingmin Sun. In these labs, she studied the chemical ecology of Antarctica and Florida marine invertebrates for carrying out natural product isolation. Research included isolating the microorganisms and testing using minimum inhibitory concentrations for potential pharmaceutical applications against Clostridium difficile.

In August 2018, Jonna was awarded theNASA Florida Space Grant Consortium Fellowshipfor her submissionTransposon Expression Changes Induced by Simulated Microgravity.In December of 2018Jonna was selected for an oral presentation at theUnited Nations Expert Meeting on Human Space Technology Providing Access to Spacein Vienna, Austria. Her presentation focused on Synergistic effects on gene expression changes in microgravity: bioinformatics analysis for the model organismOryzias latipesand propagation toward astrobiological, simulated microgravity experiments. Jonnaalso presented at the 4th Mexican Congress of Medicine & Space Health, inMexico City, Mexico and to the Board of FloridaSpace Grant Consortium at NASA Kennedy Space Center.

Jonna has given poster presentations atFlorida Institute of TechnologyandSoutheastern Regional Society for Developmental Biology. Her poster presentation focused onIdentification of candidate ATP synthase subunits homologs and their expression across developmental stages ofCaenorhabditis elegans.

While at USF, Jonna submitted two patents for a biomedical and a biotechnology patent with the Patent and Research Office at the University of South Florida, January 2019.

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Molecular Medicine | USF Health

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