Non-equivalent interactions between amino-terminal domains of neighboring λ integrase protomers direct holliday junction resolution

Sang Yeol Lee; Marta Radman-Livaja; David Warren; Hideki Aihara; Tom Ellenberger; Arthur Landy

doi:10.1016/j.jmb.2004.10.068

Non-equivalent interactions between amino-terminal domains of neighboring λ integrase protomers direct holliday junction resolution

Sang Yeol Lee, Marta Radman-Livaja, David Warren, Hideki Aihara, Tom Ellenberger, Arthur Landy

Department of Biochemistry & Molecular Biophysics

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

The bacteriophage λ site-specific recombinase (Int), in contrast to other family members such as Cre and Flp, has an amino-terminal domain that binds "arm-type" DNA sequences different and distant from those involved in strand exchange. This defining feature of the heterobivalent recombinases confers a directionality and regulation that is unique among all recombination pathways. We show that the amino-terminal domain is not a simple "accessory" element, as originally thought, but rather is incorporated into the core of the recombination mechanism, where it is well positioned to exert its profound effects. The results reveal an unexpected pattern of intermolecular interactions between the amino-terminal domain of one protomer and the linker region of its neighbor within the tetrameric Int complex and provide insights into those features distinguishing an "active" from an "inactive" pair of Ints during Holliday junction resolution.

Original language	English
Pages (from-to)	475-485
Number of pages	11
Journal	Journal of Molecular Biology
Volume	345
Issue number	3
DOIs	https://doi.org/10.1016/j.jmb.2004.10.068
State	Published - Jan 21 2005

Keywords

E. coli bacteriophage
multimeric complexes
protein-DNA interactions
protein-protein interactions
site-specific recombination

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10.1016/j.jmb.2004.10.068

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title = "Non-equivalent interactions between amino-terminal domains of neighboring λ integrase protomers direct holliday junction resolution",

abstract = "The bacteriophage λ site-specific recombinase (Int), in contrast to other family members such as Cre and Flp, has an amino-terminal domain that binds {"}arm-type{"} DNA sequences different and distant from those involved in strand exchange. This defining feature of the heterobivalent recombinases confers a directionality and regulation that is unique among all recombination pathways. We show that the amino-terminal domain is not a simple {"}accessory{"} element, as originally thought, but rather is incorporated into the core of the recombination mechanism, where it is well positioned to exert its profound effects. The results reveal an unexpected pattern of intermolecular interactions between the amino-terminal domain of one protomer and the linker region of its neighbor within the tetrameric Int complex and provide insights into those features distinguishing an {"}active{"} from an {"}inactive{"} pair of Ints during Holliday junction resolution.",

keywords = "E. coli bacteriophage, multimeric complexes, protein-DNA interactions, protein-protein interactions, site-specific recombination",

author = "Lee, {Sang Yeol} and Marta Radman-Livaja and David Warren and Hideki Aihara and Tom Ellenberger and Arthur Landy",

note = "Funding Information: We thank Christine Lank for technical assistance, Joan Boyles for manuscript preparation, and members of the Landy and Ellenberger laboratories for helpful discussions. This work was supported by National Institutes of Health grants GM62723 and GM33928 to A.L. and GM59902 to T.E. ",

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doi = "10.1016/j.jmb.2004.10.068",

language = "English",

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T1 - Non-equivalent interactions between amino-terminal domains of neighboring λ integrase protomers direct holliday junction resolution

AU - Lee, Sang Yeol

AU - Radman-Livaja, Marta

AU - Warren, David

AU - Aihara, Hideki

AU - Ellenberger, Tom

AU - Landy, Arthur

N1 - Funding Information: We thank Christine Lank for technical assistance, Joan Boyles for manuscript preparation, and members of the Landy and Ellenberger laboratories for helpful discussions. This work was supported by National Institutes of Health grants GM62723 and GM33928 to A.L. and GM59902 to T.E.

PY - 2005/1/21

Y1 - 2005/1/21

N2 - The bacteriophage λ site-specific recombinase (Int), in contrast to other family members such as Cre and Flp, has an amino-terminal domain that binds "arm-type" DNA sequences different and distant from those involved in strand exchange. This defining feature of the heterobivalent recombinases confers a directionality and regulation that is unique among all recombination pathways. We show that the amino-terminal domain is not a simple "accessory" element, as originally thought, but rather is incorporated into the core of the recombination mechanism, where it is well positioned to exert its profound effects. The results reveal an unexpected pattern of intermolecular interactions between the amino-terminal domain of one protomer and the linker region of its neighbor within the tetrameric Int complex and provide insights into those features distinguishing an "active" from an "inactive" pair of Ints during Holliday junction resolution.

AB - The bacteriophage λ site-specific recombinase (Int), in contrast to other family members such as Cre and Flp, has an amino-terminal domain that binds "arm-type" DNA sequences different and distant from those involved in strand exchange. This defining feature of the heterobivalent recombinases confers a directionality and regulation that is unique among all recombination pathways. We show that the amino-terminal domain is not a simple "accessory" element, as originally thought, but rather is incorporated into the core of the recombination mechanism, where it is well positioned to exert its profound effects. The results reveal an unexpected pattern of intermolecular interactions between the amino-terminal domain of one protomer and the linker region of its neighbor within the tetrameric Int complex and provide insights into those features distinguishing an "active" from an "inactive" pair of Ints during Holliday junction resolution.

KW - E. coli bacteriophage

KW - multimeric complexes

KW - protein-DNA interactions

KW - protein-protein interactions

KW - site-specific recombination

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DO - 10.1016/j.jmb.2004.10.068

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SN - 0022-2836

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EP - 485

JO - Journal of Molecular Biology

JF - Journal of Molecular Biology

IS - 3

ER -

Non-equivalent interactions between amino-terminal domains of neighboring λ integrase protomers direct holliday junction resolution

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Keywords

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