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ABSTRACT: The human immunodeficiency virus type-1 (HIV-1) integrase (IN) mediates insertion of viral DNA into human DNA, which is an essential step in the viral life cycle. In order to study minimal core domain in HIV-1 IN protein, we constructed nine deletion mutants by using PCR amplification. The constructs were expressed in Escherichia coli, and the proteins were subsequently purified and analyzed in terms of biological activity such as enzymatic and DNA-binding activities. The mutant INs with an N-terminal or C-terminal deletion showed strong disintegration activity though they failed to show endonucleolytic and strand transfer activities, indicating that the disintegration reaction does not require the fine structure of the HIV-1 IN protein. In the DNA-binding analysis using gel mobility shift assay and UV cross-linking method, it was found that both the central and C-terminal domains are essential for proper DNA-IN protein interaction although the central or C-terminal domain alone was able to be in close contact with DNA substrate. Therefore, our results suggest that the C-terminal domain act as a DNA-holding motive, which leads to proper interaction for enzymatic reaction between the IN protein and DNA.
Molecules and Cells 03/2000; 10(1):96-101. · 2.18 Impact Factor
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ABSTRACT: The integration activity of human immunodeficiency virus type-1 (HIV-1) integrase was characterized in vitro by using pre-processed oligonucleotide substrates. The highest level of integration activity was found at pH 6.5 to 7.0, while the endonucleolytic activity was highest at pH 7.4 to 8.0. Although the endonucleolytic and integration reactions are consecutive in retroviral integration, our result indicates that the optimal conditions of the two reactions are quite different. In addition, it is suggested that the endonucleolytic and integration steps can be separated by control of the cellular physiological state in retroviral therapy. Strong integration was detected in the presence of 0.5-10 mM Mn2+ ion, but weak integration at around 10 mM Mg2+ ion. This observation explains that the Mn2+ ion is preferred to the Mg2+ ion as a cofactor in the integration reaction. Although there was no sequence-specificity in the integration site of the target DNA, integration was found to frequently occur at particular regions of the target DNA. Furthermore, the mutant integrases such as Asp116, Ser147, and Glu152, which had been reported previously, were shown to lose integration activity completely, indicating that these residues are critically involved in catalytic action.
Molecules and Cells 09/1999; 9(4):446-51. · 2.18 Impact Factor
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ABSTRACT: The human immunodeficiency virus type 1 (HIV-1) and human foamy virus (HFV) integrase proteins were overexpressed in Escherichia coli, and purified to a near homogeneity by one- or two-step purification scheme. The endonucleolytic, integration, and disintegration activities for the HIV-1 and HFV integrases were characterized in vitro. The endonucleolytic activities for the HIV-1 and HFV integrases were found only on their own substrates, respectively, indicating that the cognate U5 LTR sequences in the substrates is critical for specific cleavage. However, the integration and disintegration activities showed less specificity on the substrate usage. Our results suggest that the disintegration activity have more preference for substrates based on Y-shaped structure rather than on viral donor DNA sequence.
Biochemistry and molecular biology international 05/1999; 47(4):621-9.
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ABSTRACT: The eight mutant integrase (IN) proteins of human immunodeficiency virus type (HIV-1), which have a single point mutation at a highly conserved central region, were prepared, and characterized in terms of their endonucleolytic activities and disintegration activities in vitro. Mutation of two highly conserved amino acids, Asp116 or Glu152, leads to complete loss of both the activities, suggesting that these two amino acids are directly associated with enzymatic functions. In addition, the mutant of the position Ser147 was found to have highly depressed endonucleolytic activity showing that the reaction was very delayed in comparison with that of the wild type. However, significant disintegration was detected in the mutant Ser147, indicating that the enzymatic mechanisms of the endonucleolytic and disintegration activities are not exactly reverse. The integrase protein with a mutation at the conserved amino acid Asn117 or Gly118 had a slight loss of the endonucleolytic activity, while a mutation at the three positions, Tyr143, Ser153, and Lys159, had no detectable effect on their enzymatic activities. These results indicate that only a few of the conserved amino acids are critical for enzymatic activities.
Molecules and Cells 11/1997; 7(5):688-93. · 2.18 Impact Factor
