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Ivelin Georgiev

Vanderbilt Vaccine Center (VVC)
Department of Pathology, Microbiology and Immunology (PMI)
Department of Electrical Engineering and Computer Science


At the interface of immunology and virology, recent computational advances have allowed us to better understand the interactions between antibodies and antigen, to design immunogens capable of eliciting target antibody specificities, and to optimize antibodies as clinical products. Research efforts in the Georgiev laboratory aim to utilize the power of computation to increase our understanding of fundamental questions in immunology and virology and to develop novel ways of using this understanding to fight diseases. For the translational component of our research, we apply structure-based protein design approaches to the development of new vaccine and antibody product candidates against a number of viruses of biomedical interest.

At the interface of immunology and virology, recent computational advances have allowed us to better understand the interactions between antibodies and antigen, to design immunogens capable of eliciting target antibody specificities, and to optimize antibodies as clinical products. Research efforts in the Georgiev laboratory aim to utilize the power of computation to increase our understanding of fundamental questions in immunology and virology and to develop novel ways of using this understanding to fight diseases. For the translational component of our research, we apply structure-based protein design approaches to the development of new vaccine and antibody product candidates against a number of viruses of biomedical interest.

Keywords: computational science , immunology , vaccines , viruses , antibodies

Research Area: Structural Biology , Computational and Systems Biology , Virology , Immunology