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AZT-resistant HIV-1 reverse transcriptase
From Proteopedia
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==Role of Reverse Transcriptase in HIV Replication== | ==Role of Reverse Transcriptase in HIV Replication== | ||
Reverse Transcriptase allows HIV to create DNA from its RNA. Reverse transcriptase has two enzymatic activities: DNA polymerase and RNase H. DNA polymerase is necessary for copying a DNA or RNA template, while RNase H cleaves the RNA that is part of the DNA/RNA duplex. These two activities combine to convert RNA into linear, double-stranded DNA. This DNA is then incorporated in the host's genome. The DNA created by reverse transcriptase can then be copied by host polymerase in order to make more copies of the viral genome. | Reverse Transcriptase allows HIV to create DNA from its RNA. Reverse transcriptase has two enzymatic activities: DNA polymerase and RNase H. DNA polymerase is necessary for copying a DNA or RNA template, while RNase H cleaves the RNA that is part of the DNA/RNA duplex. These two activities combine to convert RNA into linear, double-stranded DNA. This DNA is then incorporated in the host's genome. The DNA created by reverse transcriptase can then be copied by host polymerase in order to make more copies of the viral genome. | ||
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| + | ==Structure of Reverse Transcriptase== | ||
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==AZT Resistance== | ==AZT Resistance== | ||
{{STRUCTURE_3klg | PDB=3klg | SCENE= }} | {{STRUCTURE_3klg | PDB=3klg | SCENE= }} | ||
Revision as of 22:09, 4 November 2010
Role of Reverse Transcriptase in HIV Replication
Reverse Transcriptase allows HIV to create DNA from its RNA. Reverse transcriptase has two enzymatic activities: DNA polymerase and RNase H. DNA polymerase is necessary for copying a DNA or RNA template, while RNase H cleaves the RNA that is part of the DNA/RNA duplex. These two activities combine to convert RNA into linear, double-stranded DNA. This DNA is then incorporated in the host's genome. The DNA created by reverse transcriptase can then be copied by host polymerase in order to make more copies of the viral genome.
Structure of Reverse Transcriptase
AZT Resistance
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Alexandra Clement, David Canner, Michal Harel, Alexander Berchansky
