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MSN (EUA)
- Publicado em 10 de outubro de 2024
Genomic surveillance of the evolving SARS-CoV-2 virus has been essential for managing the COVID-19 pandemic, helping researchers identify new variants, track their circulation, and create new vaccines that target the most common emerging variants. The same approach is applied when developing annual flu shots.
This work, however, requires a structured naming system for new variants so that everyone studying and tracking viruses can be on the same page, speaking the same language. To date, [...]
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Genomic surveillance of the evolving SARS-CoV-2 virus has been essential for managing the COVID-19 pandemic, helping researchers identify new variants, track their circulation, and create new vaccines that target the most common emerging variants. The same approach is applied when developing annual flu shots.
This work, however, requires a structured naming system for new variants so that everyone studying and tracking viruses can be on the same page, speaking the same language. To date, [...]
-
Genomic surveillance of the evolving SARS-CoV-2 virus has been essential for managing the COVID-19 pandemic, helping researchers identify new variants, track their circulation, and create new vaccines that target the most common emerging variants. The same approach is applied when developing annual flu shots.
This work, however, requires a structured naming system for new variants so that everyone studying and tracking viruses can be on the same page, speaking the same language. To date, [...]
-
Genomic surveillance of the evolving SARS-CoV-2 virus has been essential for managing the COVID-19 pandemic, helping researchers identify new variants, track their circulation, and create new vaccines that target the most common emerging variants. The same approach is applied when developing annual flu shots.
This work, however, requires a structured naming system for new variants so that everyone studying and tracking viruses can be on the same page, speaking the same language. To [...]
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The ongoing surveillance of the ever-changing SARS-CoV-2 virus has proven to be crucial in our battle against the COVID-19 pandemic. It not only aids in the identification of new variants but also in tracking their spread and developing targeted vaccines. A similar approach is utilized in the development of annual flu shots.
However, this endeavor necessitates a well-structured naming system for new variants to ensure universal comprehension and communication among all parties [...]
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The system will allow researchers worldwide to better track new variants of dengue virus - which affects millions - and create new vaccines.
Genomic surveillance of the evolving SARS-CoV-2 virus has been essential for managing the COVID-19 pandemic, helping researchers identify new variants, track their circulation, and create new vaccines that target the most common emerging variants. The same approach is applied when developing annual flu shots.
This work, however, requires a structured [...]
-
The system will allow researchers worldwide to better track new variants of dengue virus — which affects millions — and create new vaccines.
Genomic surveillance of the evolving SARS-CoV-2 virus has been essential for managing the COVID-19 pandemic, helping researchers identify new variants, track their circulation, and create new vaccines that target the most common emerging variants. The same approach is applied when developing annual flu shots.
This work, however, requires [...]
-
Genomic surveillance of the evolving SARS-CoV-2 virus has been essential for managing the COVID-19 pandemic, helping researchers identify new variants, track their circulation, and create new vaccines that target the most common emerging variants. The same approach is applied when developing annual flu shots.
This work, however, requires a structured naming system for new variants so that everyone studying and tracking viruses can be on the same page, speaking the same language. To date, [...]
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No estudo de venenos, identificar quais são os genes referentes às toxinas dentro da imensidão de “letras” de um genoma é um grande desafio. Para facilitar esse trabalho, pesquisadores do Instituto Butantan desenvolveram uma ferramenta capaz de encontrar automaticamente os genes de interesse dentro de uma sequência genética utilizando inteligência artificial. O software ajuda a desvendar componentes de venenos mais rapidamente e pode [...]
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No estudo de venenos, identificar quais são os genes referentes às toxinas dentro da imensidão de “letras” de um genoma é um grande desafio. Para facilitar esse trabalho, pesquisadores do Instituto Butantan desenvolveram uma ferramenta capaz de encontrar automaticamente os genes de interesse dentro de uma sequência genética utilizando inteligência artificial. O software ajuda a desvendar componentes de venenos mais rapidamente e pode [...]
