The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination

Tyrosine recombinases are conserved in the three kingdoms of life. Here we present the first crystal structure of a full-length archaeal tyrosine recombinase, XerA from Pyrococcus abyssi, at 3.0 Å resolution. In the absence of DNA substrate XerA crystallizes as a dimer where each monomer displays a...

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Autores principales: Serre, Marie-Claude, El Arnaout, Toufic, Brooks, Mark A., Durand, Dominique, Lisboa, Johnny, Lazar, Noureddine, Raynal, Bertrand, van Tilbeurgh, Herman, Quevillon-Cheruel, Sophie
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3646895/
https://www.ncbi.nlm.nih.gov/pubmed/23667562
http://dx.doi.org/10.1371/journal.pone.0063010
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author Serre, Marie-Claude
El Arnaout, Toufic
Brooks, Mark A.
Durand, Dominique
Lisboa, Johnny
Lazar, Noureddine
Raynal, Bertrand
van Tilbeurgh, Herman
Quevillon-Cheruel, Sophie
author_facet Serre, Marie-Claude
El Arnaout, Toufic
Brooks, Mark A.
Durand, Dominique
Lisboa, Johnny
Lazar, Noureddine
Raynal, Bertrand
van Tilbeurgh, Herman
Quevillon-Cheruel, Sophie
author_sort Serre, Marie-Claude
collection PubMed
description Tyrosine recombinases are conserved in the three kingdoms of life. Here we present the first crystal structure of a full-length archaeal tyrosine recombinase, XerA from Pyrococcus abyssi, at 3.0 Å resolution. In the absence of DNA substrate XerA crystallizes as a dimer where each monomer displays a tertiary structure similar to that of DNA-bound Tyr-recombinases. Active sites are assembled in the absence of dif except for the catalytic Tyr, which is extruded and located equidistant from each active site within the dimer. Using XerA active site mutants we demonstrate that XerA follows the classical cis-cleavage reaction, suggesting rearrangements of the C-terminal domain upon DNA binding. Surprisingly, XerA C-terminal αN helices dock in cis in a groove that, in bacterial tyrosine recombinases, accommodates in trans αN helices of neighbour monomers in the Holliday junction intermediates. Deletion of the XerA C-terminal αN helix does not impair cleavage of suicide substrates but prevents recombination catalysis. We propose that the enzymatic cycle of XerA involves the switch of the αN helix from cis to trans packing, leading to (i) repositioning of the catalytic Tyr in the active site in cis and (ii) dimer stabilisation via αN contacts in trans between monomers.
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spelling pubmed-36468952013-05-10 The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination Serre, Marie-Claude El Arnaout, Toufic Brooks, Mark A. Durand, Dominique Lisboa, Johnny Lazar, Noureddine Raynal, Bertrand van Tilbeurgh, Herman Quevillon-Cheruel, Sophie PLoS One Research Article Tyrosine recombinases are conserved in the three kingdoms of life. Here we present the first crystal structure of a full-length archaeal tyrosine recombinase, XerA from Pyrococcus abyssi, at 3.0 Å resolution. In the absence of DNA substrate XerA crystallizes as a dimer where each monomer displays a tertiary structure similar to that of DNA-bound Tyr-recombinases. Active sites are assembled in the absence of dif except for the catalytic Tyr, which is extruded and located equidistant from each active site within the dimer. Using XerA active site mutants we demonstrate that XerA follows the classical cis-cleavage reaction, suggesting rearrangements of the C-terminal domain upon DNA binding. Surprisingly, XerA C-terminal αN helices dock in cis in a groove that, in bacterial tyrosine recombinases, accommodates in trans αN helices of neighbour monomers in the Holliday junction intermediates. Deletion of the XerA C-terminal αN helix does not impair cleavage of suicide substrates but prevents recombination catalysis. We propose that the enzymatic cycle of XerA involves the switch of the αN helix from cis to trans packing, leading to (i) repositioning of the catalytic Tyr in the active site in cis and (ii) dimer stabilisation via αN contacts in trans between monomers. Public Library of Science 2013-05-07 /pmc/articles/PMC3646895/ /pubmed/23667562 http://dx.doi.org/10.1371/journal.pone.0063010 Text en © 2013 Serre et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Serre, Marie-Claude
El Arnaout, Toufic
Brooks, Mark A.
Durand, Dominique
Lisboa, Johnny
Lazar, Noureddine
Raynal, Bertrand
van Tilbeurgh, Herman
Quevillon-Cheruel, Sophie
The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination
title The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination
title_full The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination
title_fullStr The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination
title_full_unstemmed The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination
title_short The Carboxy-Terminal αN Helix of the Archaeal XerA Tyrosine Recombinase Is a Molecular Switch to Control Site-Specific Recombination
title_sort carboxy-terminal αn helix of the archaeal xera tyrosine recombinase is a molecular switch to control site-specific recombination
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3646895/
https://www.ncbi.nlm.nih.gov/pubmed/23667562
http://dx.doi.org/10.1371/journal.pone.0063010
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