Identification of a DNA nonhomologous end-joining complex in bacteria

GR Weller; Boris Kysela; R Roy; LM Tonkin; E Scanlan; M Della; SK Devine; JP Day; A Wilkinson; F di Fagagna; KM Devine; RP Bowater; AP Jeggo; SP Jackson; AJ Doherty

doi:10.1126/science.1074584

Identification of a DNA nonhomologous end-joining complex in bacteria

GR Weller, Boris Kysela, R Roy, LM Tonkin, E Scanlan, M Della, SK Devine, JP Day, A Wilkinson, F di Fagagna, KM Devine, RP Bowater, AP Jeggo, SP Jackson, AJ Doherty

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231 Citations (Scopus)

Abstract

In eukaryotic cells, double-strand breaks (DSBs) in DNA are generally repaired by the pathway of homologous recombination or by DNA nonhomologous end joining (NHEJ). Both pathways have been highly conserved throughout eukaryotic evolution, but no equivalent NHEJ system has been identified in prokaryotes. The NHEJ pathway requires a DNA end-binding component called Ku. We have identified bacterial Ku homologs and show that these proteins retain the biochemical characteristics of the eukaryotic Ku heterodimer. Furthermore, we show that bacterial Ku specifically recruits DNA ligase to DNA ends and stimulates DNA ligation. Loss of these proteins leads to hypersensitivity to ionizing radiation in Bacillus subtilis. These data provide evidence that many bacteria possess a DNA DSB repair apparatus that shares many features with the NHEJ system of eukarya and suggest that this DNA repair pathway arose before the prokaryotic and eukaryotic lineages diverged.

Original language	English
Pages (from-to)	1686-9
Number of pages	4
Journal	Science
Volume	297
Issue number	5587
DOIs	https://doi.org/10.1126/science.1074584
Publication status	Published - 6 Sept 2002

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title = "Identification of a DNA nonhomologous end-joining complex in bacteria",

abstract = "In eukaryotic cells, double-strand breaks (DSBs) in DNA are generally repaired by the pathway of homologous recombination or by DNA nonhomologous end joining (NHEJ). Both pathways have been highly conserved throughout eukaryotic evolution, but no equivalent NHEJ system has been identified in prokaryotes. The NHEJ pathway requires a DNA end-binding component called Ku. We have identified bacterial Ku homologs and show that these proteins retain the biochemical characteristics of the eukaryotic Ku heterodimer. Furthermore, we show that bacterial Ku specifically recruits DNA ligase to DNA ends and stimulates DNA ligation. Loss of these proteins leads to hypersensitivity to ionizing radiation in Bacillus subtilis. These data provide evidence that many bacteria possess a DNA DSB repair apparatus that shares many features with the NHEJ system of eukarya and suggest that this DNA repair pathway arose before the prokaryotic and eukaryotic lineages diverged.",

author = "GR Weller and Boris Kysela and R Roy and LM Tonkin and E Scanlan and M Della and SK Devine and JP Day and A Wilkinson and {di Fagagna}, F and KM Devine and RP Bowater and AP Jeggo and SP Jackson and AJ Doherty",

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doi = "10.1126/science.1074584",

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T1 - Identification of a DNA nonhomologous end-joining complex in bacteria

AU - Weller, GR

AU - Kysela, Boris

AU - Roy, R

AU - Tonkin, LM

AU - Scanlan, E

AU - Della, M

AU - Devine, SK

AU - Day, JP

AU - Wilkinson, A

AU - di Fagagna, F

AU - Devine, KM

AU - Bowater, RP

AU - Jeggo, AP

AU - Jackson, SP

AU - Doherty, AJ

PY - 2002/9/6

Y1 - 2002/9/6

N2 - In eukaryotic cells, double-strand breaks (DSBs) in DNA are generally repaired by the pathway of homologous recombination or by DNA nonhomologous end joining (NHEJ). Both pathways have been highly conserved throughout eukaryotic evolution, but no equivalent NHEJ system has been identified in prokaryotes. The NHEJ pathway requires a DNA end-binding component called Ku. We have identified bacterial Ku homologs and show that these proteins retain the biochemical characteristics of the eukaryotic Ku heterodimer. Furthermore, we show that bacterial Ku specifically recruits DNA ligase to DNA ends and stimulates DNA ligation. Loss of these proteins leads to hypersensitivity to ionizing radiation in Bacillus subtilis. These data provide evidence that many bacteria possess a DNA DSB repair apparatus that shares many features with the NHEJ system of eukarya and suggest that this DNA repair pathway arose before the prokaryotic and eukaryotic lineages diverged.

AB - In eukaryotic cells, double-strand breaks (DSBs) in DNA are generally repaired by the pathway of homologous recombination or by DNA nonhomologous end joining (NHEJ). Both pathways have been highly conserved throughout eukaryotic evolution, but no equivalent NHEJ system has been identified in prokaryotes. The NHEJ pathway requires a DNA end-binding component called Ku. We have identified bacterial Ku homologs and show that these proteins retain the biochemical characteristics of the eukaryotic Ku heterodimer. Furthermore, we show that bacterial Ku specifically recruits DNA ligase to DNA ends and stimulates DNA ligation. Loss of these proteins leads to hypersensitivity to ionizing radiation in Bacillus subtilis. These data provide evidence that many bacteria possess a DNA DSB repair apparatus that shares many features with the NHEJ system of eukarya and suggest that this DNA repair pathway arose before the prokaryotic and eukaryotic lineages diverged.

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JO - Science

JF - Science

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ER -

Identification of a DNA nonhomologous end-joining complex in bacteria

Abstract

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