NCSA College Recruiting® (NCSA) is the nation’s main collegiate recruiting source for more than 500,000 student-athletes and forty two,000 college coaches. By taking advantage of this in depth network, greater than 92 percent of NCSA verified athletes play on the college stage. The network is on the market to high school student-athletes around the nation by way of valued relationships with the NFLPA, FBU, NFCA and SPIRE. Dr. Hankore’s unbiased lab will give attention to leveraging her expertise in chemical biology, molecular biology, biochemistry, biocatalysis, green chemistry, and protein engineering to explore revolutionary breckie hill erome options for biotechnology and drug discovery. Her research goals to develop novel biocatalysts and sustainable approaches for the synthesis of pharmaceuticals and value-added industrial compounds. She earned her Ph.D. in chemistry from the University of Nebraska-Lincoln, where she specialized in chemical biology and biocatalysis. Her research targeted on genetic code expansion, the event of biocatalysts for biofuel production, and kinase dynamics for drug discovery.
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- She earned her Ph.D. in chemistry from the University of Nebraska-Lincoln, where she specialised in chemical biology and biocatalysis.
- The network is available to highschool student-athletes across the country via valued relationships with the NFLPA, FBU, NFCA and SPIRE.
- NCSA College Recruiting® (NCSA) is the nation’s main collegiate recruiting supply for more than 500,000 student-athletes and 42,000 college coaches.
- By profiting from this extensive community, more than ninety two percent of NCSA verified athletes play on the college degree.
- Her research aims to develop novel biocatalysts and sustainable approaches for the synthesis of prescribed drugs and value-added industrial compounds.
Dr. Hankore also accomplished postdoctoral research in pure product biosynthesis and protein engineering at the University of Kentucky’s College of Pharmacy. Currently, Dr. Hankore studies kinases using a proteomics approach, utilizing ATP analogs developed by the Pflum lab to elucidate kinase-substrate interactions in cells.
