NYU Langone Scientists Tracking Genetic Evolution of Coronavirus in New York City
As of April 9, NYU Grossman School of Medicine researchers had determined the genetic code for COVID-19 virus taken from 91 New York City patients during the current pandemic, the researchers say.
Upon determining the order of the genetic letters in the codes from the local viral samples, also called their “sequences,” the researchers submit them to GISAID EpiFlu – the Global Initiative on Sharing All Influenza. Founded in 2008 to promote the international sharing of data on influenza infections, the GISAID database is now tracking the evolution of the new coronavirus. The NYU Langone Health team determined the viral sequences from samples taken from the nasal swabs of patients at Tisch Hospital, NYU Winthrop Hospital and NYU Langone Hospital Brooklyn.
The early data suggests that the coronavirus has been spreading in the New York City community for a couple of months, researchers say, and since before testing started. Further, the particular genetic codes in most local viral samples indicates that they originated in Europe.
“The value of determining viral local sequences is that – the more that become available – the better we can monitor the spread and severity of the disease – and the more it can clarify which drugs, vaccines, or social interventions are effective here,” says Adriana Heguy, PhD, director of the Genome Technology Center at NYU Langone Health, and leader of the sequencing team. “We’re just starting this project, but will soon be sequencing 192 viral samples per week with the goal of offering thousands of sequences for analysis in the near future.”
“This global effort does not just determine the code of a single version of the virus, but tracks how its genetic code changes as it moves through a population, and with what consequences,” adds Matija Snuderl, MD, director of Molecular Pathology and Diagnostics at NYU Grossman. “As viruses evolve during transmission from person to person, their sequences can help researchers to zero in on the provenance, or place of origin, of that specific infection,” says Snuderl, who leads the clinical testing team.
“Slight changes in the genetic code of a virus that happen during transmission from person to person can help to guide the public health response,” says Matthew Maurano, PhD, faculty with the Institute for Systems Genetics and Department of Pathology at NYU Langone. In the case of the samples from patients sequenced so far, Maurano’s comparisons with other GISAID sequences showed that they lie in multiple independent groups of COVID-19 cases from the United States, Europe, and Asia.
Named “SARS-CoV-2,” the new virus causes the disease called “coronavirus disease 2019” or “COVID-19.” As of April 9, it had infected nearly 1.5 million patients worldwide. According to the World Health Organization, the illness has resulted in nearly 89,000 deaths to date, more often among elderly patients with underlying health conditions. The New York State Department of Health has reported more than 76,000 cases to date in New York City.