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Understanding COVID-19 virus mutations

FILE - This 2020 electron microscope image provided by the National Institute of Allergy and Infectious Diseases - Rocky Mountain Laboratories shows SARS-CoV-2 virus particles which cause COVID-19, isolated from a patient in the U.S., emerging from the surface of cells cultured in a lab. According to two new studies released on Tuesday, Dec. 22, 2020, people who have antibodies from infection with the coronavirus seem less likely to get a second infection for several months and maybe longer. (NIAID-RML via AP)
FILE - This 2020 electron microscope image provided by the National Institute of Allergy and Infectious Diseases - Rocky Mountain Laboratories shows SARS-CoV-2 virus particles which cause COVID-19, isolated from a patient in the U.S., emerging from the surface of cells cultured in a lab. According to two new studies released on Tuesday, Dec. 22, 2020, people who have antibodies from infection with the coronavirus seem less likely to get a second infection for several months and maybe longer. (NIAID-RML via AP)

New strains of COVID-19 are making headlines and impacting countries around the world.

The virus has mutated, or changed, but what exactly does that mean and should we be concerned?

“This variant is more fit, or it works better,” said Dr. Daniel Rhoads, a microbiologist with Cleveland Clinic. “Naturally, there’s going to be more of it and it’s going to be transmissible more easily, and grow more readily and then kind of take over, so to speak, the population of viruses.”

He said viruses mutate randomly all the time and scientists have been expecting coronavirus’ genetic makeup to change.

He explained mutation is a little like somebody recopying a script over and over, and occasionally making an error – the error is a mutation.

He said most mutations are insignificant and often detrimental to the virus, but sometimes the virus gets lucky and the mutation helps it work better.

In the case of COVID-19, the virus mutated so the new strain can now latch onto our cells more effectively.

However, once someone is infected, the virus behaves the same as we’ve come to expect.

The good news is testing tools still identify these new strains.

“These new variants can still be detected with our current methods of detection, so that’s one thing that should be reassuring, is that we can still detect these variants just like we’ve been able to detect the original strains,” said Rhoads.

Currently, scientists say they have no data to show the mutations have any impact on COVID-19 vaccine effectiveness.