Assessment of a Computational Approach to Predict Drug Resistance Mutations for HIV, HBV and SARS-CoV-2

Abstract: Viral resistance is a worldwide problem mitigating the effectiveness of antiviral drugs. Mutations in the drug-targeting proteins are the primary mechanism for the emergence of drug resistance. It is essential to identify the drug resistance mutations to elucidate the mechanism of resistance and to suggest promising treatment strategies to counter the drug resistance. However, experimental identification of drug resistance mutations is challenging, laborious and time-consuming. Hence, effective and time-saving… Show more

“…The primary mechanism underlying acquired drug resistance in viruses involves random mutations within viral genes, which alter the drug’s binding affinity to its protein target, rendering the drug ineffective. Consequently, the emergence of drug-resistant viral strains poses a persistent challenge, leading to treatment failures and increased morbidity and mortality [ 28 ].…”

Assessing Genomic Mutations in SARS-CoV-2: Potential Resistance to Antiviral Drugs in Viral Populations from Untreated COVID-19 Patients

“…The primary mechanism underlying acquired drug resistance in viruses involves random mutations within viral genes, which alter the drug’s binding affinity to its protein target, rendering the drug ineffective. Consequently, the emergence of drug-resistant viral strains poses a persistent challenge, leading to treatment failures and increased morbidity and mortality [ 28 ].…”

Assessing Genomic Mutations in SARS-CoV-2: Potential Resistance to Antiviral Drugs in Viral Populations from Untreated COVID-19 Patients

Emden: A novel method integrating graph and transformer representations for predicting the effect of mutations on clinical drug response

Bioactivities, Mechanisms, Production, and Potential Application of Bile Acids in Preventing and Treating Infectious Diseases