Researchers worldwide are currently engaged in a race against time with life and death implications for many of the world’s people.
Their aim is to defeat or at least stem the tide against a tiny but powerful enemy, SARS-CoV-2, the virus which causes COVID-19.
Jeddidiah W.D. Griffin, assistant professor of biology at Mars Hill University (MHU), has joined that fight with research which he hopes will provide a starting point for researchers who are developing drug therapies against the virus.
Griffin’s research investigates the structure of SARS-CoV-2. His paper, titled “SARS-CoV and SARS-CoV-2 main protease residue interaction networks change when bound to inhibitor N3,” was recently published in the Journal of Structural Biology (published online July 2020).
According to Griffin, the complicated name of the research article belies a relatively simple concept: to identify how the structure of the enzyme which enables the COVID-19 virus to reproduce changes when inhibited.
That knowledge, then, becomes the building block for treatments against the disease.
“SARS-CoV-2 uses a protein called the main protease to complete building new viruses inside cells,” Griffin said. “If the main protease can be inhibited by an antiviral drug, it may prevent SARS-CoV-2 from replicating. This is why the structure of the main protease is the focus of my research.”
The structure and replication process of SARS-CoV-2 is similar in some respects to SARS-CoV, the virus which emerged in Asia in 2003 and caused severe acute respiratory syndrome (SARS). The same protein, he said, enables both viruses to reproduce.
Griffin said he used a branch of mathematics called graph theory to identify the parts of the protein which maintain the network of amino acid interactions which, in turn, may keep the protein molecule working. The goal of the research was to investigate how networks in working proteins differ from inhibited proteins.
“Imagine crumpling up a strip of paper. In the crumpled paper, some parts of the strip will touch other parts of the strip, forming a network of interactions,” Griffin said. “This is like a string of amino acid residues that fold up into a protein. In my research, I use computers to make sense of the connections within a protein, much like drawing a map of all the connections within the imagined crumpled strip of paper.”
Griffin’s research conclusions identified several “residue network clusters” in the protein which may disrupt the protein connections if changed. Other researchers then, may use those vulnerable connections as a starting point in the development of therapeutic drugs which target the virus.
About Mars Hill University
Mars Hill University is a premier private, liberal arts institution offering over 30 baccalaureate degrees, as well as master’s degrees in criminal justice, elementary education, teaching, and management. Founded in 1856 by Baptist families of the region, the campus is located just 20 minutes north of Asheville in the mountains of western North Carolina. The university’s Asheville Center for Adult and Graduate Studies is located on Airport Road in Arden.