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In vitro initial attachment of HIV-1 integrase to viral ends: control of the DNA specific interaction by the oligomerization state.


ABSTRACT: HIV-1 integrase (IN) oligomerization and DNA recognition are crucial steps for the subsequent events of the integration reaction. Recent advances described the involvement of stable intermediary complexes including dimers and tetramers in the in vitro integration processes, but the initial attachment events and IN positioning on viral ends are not clearly understood. In order to determine the role of the different IN oligomeric complexes in these early steps, we performed in vitro functional analysis comparing IN preparations having different oligomerization properties. We demonstrate that in vitro IN concerted integration activity on a long DNA substrate containing both specific viral and nonspecific DNA sequences is highly dependent on binding of preformed dimers to viral ends. In addition, we show that IN monomers bound to nonspecific DNA can also fold into functionally different oligomeric complexes displaying nonspecific double-strand DNA break activity in contrast to the well known single strand cut catalyzed by associated IN. Our results imply that the efficient formation of the active integration complex highly requires the early correct positioning of monomeric integrase or the direct binding of preformed dimers on the viral ends. Taken together the data indicates that IN oligomerization controls both the enzyme specificity and activity.

SUBMITTER: Lesbats P 

PROVIDER: S-EPMC2602759 | biostudies-literature | 2008 Dec

REPOSITORIES: biostudies-literature

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In vitro initial attachment of HIV-1 integrase to viral ends: control of the DNA specific interaction by the oligomerization state.

Lesbats P P   Métifiot M M   Calmels C C   Baranova S S   Nevinsky G G   Andreola M L ML   Parissi V V  

Nucleic acids research 20081105 22


HIV-1 integrase (IN) oligomerization and DNA recognition are crucial steps for the subsequent events of the integration reaction. Recent advances described the involvement of stable intermediary complexes including dimers and tetramers in the in vitro integration processes, but the initial attachment events and IN positioning on viral ends are not clearly understood. In order to determine the role of the different IN oligomeric complexes in these early steps, we performed in vitro functional ana  ...[more]

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