Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.26.4 (
RNase H
)
2,751
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
HIV type I (HIV-1) reverse transcriptase (RT) catalyzes the conversion of viral RNA into DNA, initiating the chain of events leading to integration of proviral DNA into the host genome. RT is expressed as a single polypeptide chain within the Gag-Pol polyprotein, and either prior to or following excision by HIV-1 protease forms a 66 kDa chain (p66) homodimer precursor. Further proteolytic attack by HIV-1 protease cleaves the
ribonuclease H
(
RNase H
) domain of a single subunit to yield the mature p66/p51 heterodimer. Here, we probe the spatial domain organization within the p66 homodimer using pulsed Q-band double electron-electron resonance (DEER)
EPR
spectroscopy to measure a large number of intra- and intersubunit distances between spin labels attached to surface-engineered cysteines. The DEER-derived distances are fully consistent with the structural subunit asymmetry found in the mature p66/p51 heterodimer in which catalytic activity resides in the p66 subunit, while the p51 subunit purely serves as a structural scaffold. Furthermore, the p66 homodimer precursor undergoes a conformational change involving the thumb, palm, and finger domains in one of the subunits (corresponding to the p66 subunit in the mature p66/p51 heterodimer) from a closed to a partially open state upon addition of a nonnucleoside inhibitor. The relative orientation of the domains was modeled by simulated annealing driven by the DEER-derived distances. Finally, the
RNase H
domain that is cleaved to generate p51 in the mature p66/p51 heterodimer is present in 2 major conformers. One conformer is fully solvent accessible thereby accounting for the observation that only a single subunit of the p66 homodimer precursor is susceptible to HIV-1 protease.
...
PMID:Spatial domain organization in the HIV-1 reverse transcriptase p66 homodimer precursor probed by double electron-electron resonance EPR. 3142 32
Following excision from the Gag-Pol polyprotein, HIV-1 reverse transcriptase is released as an asymmetric homodimer comprising two p66 subunits that are structurally dissimilar but identical in amino acid sequence. Subsequent cleavage of the
RNase H
domain from only one of the subunits, denoted p66', results in the formation of the mature p66/p51 enzyme in which catalytic activity resides in the p66 subunit, and the p51 subunit (derived from p66') provides a supporting structural scaffold. Here, we probe the interaction of the p66/p66' asymmetric reverse transcriptase precursor with HIV-1 protease by pulsed Q-band double electron-electron resonance
EPR
spectroscopy to measure distances between nitroxide labels introduced at surface-engineered cysteine residues. The data suggest that the flexible, exposed linker between the RNaseH and connection domains in the open state of the p66' subunit binds to the active site of protease in a configuration that is similar to that of extended peptide substrates.
...
PMID:Probing the Interaction between HIV-1 Protease and the Homodimeric p66/p66' Reverse Transcriptase Precursor by Double Electron-Electron Resonance EPR Spectroscopy. 3255 68
