Pnina Gottfried scite author profile

The gene encoding the wild type Integrase protein of coliphage HK022 was integrated chromosomally and expressed in Arabidopsis thaliana plants. Double-transgenic plants cloned with the int gene as well as with a T-DNA fragment carrying the proper att sites in a tandem orientation showed that Int catalyzed a site-specific integration reaction (attP · attB) as well as a site-specific excision reaction (attL · attR). The reactions took place without the need to provide any of the accessory proteins that are required by Int in the bacterial host. When expressed in tobacco plants a GFP-Int fusion exhibits a predominant nuclear localization.

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Core-binding specificity of bacteriophage integrases

Gottfried

Yagil

Kolot

2000

Mol Gen Genet

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The site-specific recombination systems of bacteriophages lambda and HK022 share the same mechanism and their integrase proteins show strong homology. Nevertheless the integrase protein of each phage can only catalyze recombination between its own att sites. Previous work has shown that the specificity determinants in the att sites are located within the sequences that bind the integrase to the core of att. DNA fragments that carry attL and attR sites of each phage were challenged with each of the two integrases and the DNA-protein complexes were examined by the gel-retardation technique. The results show that each integrase can form higher-order DNA-protein complexes only with its cognate att sites, suggesting that differences in the mode of binding to the core are responsible for the specificity difference between the two integrases.

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The effect of mutations in the Xis-binding sites on site-specific recombination in coliphage HK022

2001

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Excisionase (Xis) is an accessory protein that is required for the excision of the related prophages lambda and HK022. Xis binds to two tandemly arranged binding sites (X1 and X2) on the P arm of the recombination sites attP and attR. Gel-retardation analyses and site-specific recombination assays were conducted on derivatives bearing site-directed mutations in the X1 and X2 sites of phage HK022. The results confirm the cooperative binding of Xis to its sites, showing that binding to X1 stimulates further binding to X2. The results also show that mutants affected in a single site are inactive in excision, whereas mutants affected in both sites, which show a complete absence of Xis binding, display significant excision activity. This restored activity is attributed to the interaction of Xis with Integrase, the protein that catalyzes the site-specific recombination reaction.

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Protein–protein interaction between monomers of coliphage HK022 excisionase

et al. 2004

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Excisionase (Xis) is an accessory protein that is required for the site-specific excision reaction of the coliphages HK022 and k. Xis binds in a strong cooperative manner to two tandem binding sites (X1 and X2) located on the P arm of the attachment (att) sites on the phage genome. As a result of crosslinking experiments in vivo and in vitro of Xis-overexpressing cells, by gel filtration of purified Xis and by FRET analyses we show that Xis monomers of HK022 interact and form dimers that are not dependent on the single Cys residue of the protein and on the presence of DNA. The formation of the dimers may explain the strong binding cooperativity of Xis to its sites on DNA.

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A second site-specific recombination event in the lambdoid bacteriophage HK022

1996

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An in vitro site-specific recombination reaction of the lambdoid phage HK022 has revealed two supercoiled products that proved to be Holliday intermediates. One of them is the Holliday intermediate which has resulted from an attP x attB reaction. The other is an intermediate which has resulted from a recombination reaction between attP and the attL site of the product from the first reaction. The preferential attL x attP over attR x attP reaction was confirmed in vitro and in vivo by challenging attP sites with attL and attR sites. The biased attP x attL over attP x attR reaction in phage HK022 is discussed.

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Pnina Gottfried

Site-specific recombination in Arabidopsis plants promoted by the Integrase protein of coliphage HK022

Core-binding specificity of bacteriophage integrases

The effect of mutations in the Xis-binding sites on site-specific recombination in coliphage HK022

Protein–protein interaction between monomers of coliphage HK022 excisionase

A second site-specific recombination event in the lambdoid bacteriophage HK022

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