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Developments in structural biology has led to advancements in drug design and vaccine development. By better understanding the macromolecular structure, rational choices can be made to improve factors in such as binding affinity, while reducing promiscuity and off-target interactions, improving

Developments in structural biology has led to advancements in drug design and vaccine development. By better understanding the macromolecular structure, rational choices can be made to improve factors in such as binding affinity, while reducing promiscuity and off-target interactions, improving the medicines of tomorrow. The majority of diseases have a macromolecular basis where rational drug development can make a large impact. Two challenging protein targets of different medical relevance have been investigated at different stages of determining their structures with the ultimate goal of advancing in drug development. The first protein target is the CapBCA membrane protein complex, a virulence factor from the bacterium Francisella tularensis and the causative agent of tularemia and classified as a potential bioterrorism weapon by the United States. Purification of the individual protein targets from the CapBCA complex is a key and challenging step that has been, so far, a limiting factor towards the structure determination of the whole complex. Here, the purification protocols for the CapB and CapC subunits have been establish, which will allow us to progress towards biophysical and structural studies. The second protein target investigated in this thesis is the catalytically active Taspase1. Taspase1 functions as a non-oncogene addiction protease that coordinates cancer cell proliferation and apoptosis and has been found to be overexpressed in many primary human cancers. Here the structure is presented to 3.04A with the goal of rational drug design of Taspase1 inhibitors. Development of Taspase1 inhibitors has no completion in the drug discovery arena and would function as a new anti-cancer therapeutic. Solving the structures of medically relevant proteins such as these is critical towards rapidly developing treatments and prevention of old and new diseases.


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Title
  • Structural Discovery for Medically Relevant Proteins:Purification and Characterization of the CapBCA Membrane Protein Complex from Francisella tularensis and New Structural Insights into the Function of Catalytically Active Taspase1: A Novel Anti-Cancer
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Date Created
2020-05
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