Plasmid contains the entire genome of HIV-1 with specific mutations in the reverse transcriptase gene, which can confer drug resistance to specific HIV-1 inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on reverse transcriptase inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 PR inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on PR inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 (NL4-3) with specific mutations in the protease gene, which can confer drug resistance to specific HIV-1 protease inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on protease inhibitors with virologic therapy failure.
Plasmid contains the entire genome of HIV-1 with specific mutations in the viral protease gene, which can confer drug resistance to specific HIV-1 protease inhibitors. The respective mutations have been reported in viruses from HIV-infected individuals on protease inhibitors with virologic therapy failure.
Recombinant HIV-1 plasmid (derived from pNL4-3) with the indicated mutations in the protease gene, which have been reported in the context of clinical drug resistance to HIV protease inhibitors.
Recombinant HIV-1 virus with the indicated mutations in the protease gene. Mutations have been reported from drug resistant viral variants emerging in vivo, e.g. after treatment with the HIV protease inhibitor saquinavir
full length plasmid clone of proviral HIV-1; construct produces defective HIV-1 upon transfection into eukaryotic cells (frame-shift in gag); based on NL-BX
Plasmid contains the entire genome of HIV-1 (NL4-3) with the respective specific mutations in the protease gene. These may confer drug resistance to specific HIV protease inhibitors and have been identified in clinical specimens from individuals with therapeutic failure.