Research predicting transmissible COVID-19 variants receives $780K

October 12, 2021
麻豆传媒News

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laboratory staff processing covid tests — Tropical Medicine Clinical Laboratory at JABSOM.

麻豆传媒, a prime tourism destination, in combination with its largely multi-racial resident population, presents a unique opportunity to identify and chart the distribution of SARS-CoV-2 variants, the virus that causes the coronavirus disease. The National Institutes of Health has committed $779,792 for two years to the University of 麻豆传媒 at 惭ā苍辞补 (JABSOM) toward advancing public impact research on the spread and continuing evolution of SARS-CoV-2 variants in the state’蝉 underserved communities.

We want to further understand why certain variants are so much more transmissible than others.
—Vivek R. Nerurkar

The study, “Surveillance of SARS-CoV-2 Variants in 麻豆传媒,” is part of the . It is based on the prediction that additional variants will be found in 麻豆传媒 because of its high influx of recreational travelers from COVID-19 hotspots.

Vivek R. Nerurkar, professor and chair of JABSOM’蝉 , leads a team of graduate students, post-doctoral fellows and bioinformaticians, including the INBRE Bioinformatics Core group, in sequencing and analyzing the genetic information of these variants circulating throughout the state.

“We want to further understand why certain variants are so much more transmissible than others,” said Nerurkar, who has spearheaded COVID-19 diagnostic testing among the underserved and vulnerable populations in the state.

Related UH News story: New UH lab provides free rapid result COVID-19 testing to underserved, December 4, 2020

The project represents a collaboration with four Clinical Laboratory Improvement Amendments-certified laboratories in Honolulu that perform FDA Emergency Use Authorization COVID-19 diagnostic tests. In addition, the study is providing a unique opportunity for participation by undergraduates in the 麻豆传媒 INBRE student research program.

Algorithm to predict mutations

The research group’蝉 work preceding this grant was published in , the and in , where they present an algorithm developed to predict particular mutations that can lead to more transmissible COVID-19 variants.

“We developed this model hoping we can contribute to the new generation vaccines so that there is no delay in preparing the new vaccines when variants arrive,” Nerurkar said.

“The work by Dr. Nerurkar and his team will ensure that 麻豆传媒 is out in front of any new variants of concern either entering the state or arising here on the islands, as part of a national effort to track and quickly respond to the entry and movement of coronavirus variants across the states,” said Principal Investigator and Director of the 麻豆传媒 INBRE Robert Nichols.

This research is an example of UH 惭ā苍辞补’蝉 goal of (PDF), one of four goals identified in the (PDF), updated in December 2020.