This undated transmission electron microscope image shows SARS-CoV-2, also known as novel coronavirus, the virus that causes COVID-19, isolated from a patient in the U.S. Virus particles are shown emerging from the surface of cells cultured in the lab. The spikes on the outer edge of the virus particles give coronaviruses their name, crown-like. NIAID-RML/Handout via REUTERS. THIS IMAGE HAS BEEN SUPPLIED BY A THIRD PARTY. MANDATORY CREDIT
(Reuters) – A specific mutation in the new coronavirus can significantly increase its ability to infect cells, according to a study by U.S. researchers.
The research may explain why early outbreaks in some parts of the world did not end up overwhelming health systems as much as other outbreaks in New York and Italy, according to experts at Scripps Research.
The mutation, named D614G, increased the number of “spikes” on the coronavirus – which is the part that gives it its distinctive shape. Those spikes are what allow the virus to bind to and infect cells.
“The number—or density—of functional spikes on the virus is 4 or 5 times greater due to this mutation,” said Hyeryun Choe, one of the senior authors of the study.
The researchers say that it is still unknown whether this small mutation affects the severity of symptoms of infected people, or increases mortality.
The researchers conducting lab experiments say that more research, including controlled studies – widely considered a gold standard for clinical trials, needs to be done to confirm their findings from test tube experiments.
Older research has showed that the new coronavirus SARS-CoV-2 is mutating and evolving as it adapts to its human hosts. The D614G mutation in particular has been flagged as an urgent concern because it appeared to be emerging as a dominant mutation.
The Scripps Research study is currently undergoing peer review and was released on Friday amid reports of its findings.
Reporting by Manas Mishra in Bengaluru: Editing by Bernard Orr