Several pathways of hydrogen peroxide action that damage the E. coli genome

Asad, Nasser Ribeiro; Asad, Lidia Maria Buarque Oliveira; Almeida, Carlos Eduardo Bonacossa de; Felzenszwalb, Israel; Cabral-Neto, Januário Bispo; Leitão, Alvaro Costa

Asad, Nasser Ribeiro; Asad, Lidia Maria Buarque Oliveira; Almeida, Carlos Eduardo Bonacossa de; Felzenszwalb, Israel; Cabral-Neto, Januário Bispo; Leitão, Alvaro Costa.

Asad, Nasser Ribeiro; Universidade do Estado do Rio de Janeiro. Instituto de Biologia Roberto Alcantara Gomes. Departamento de Biofísica e Biometria. Rio de Janeiro. BR
Asad, Lidia Maria Buarque Oliveira; Universidade do Estado do Rio de Janeiro. Instituto de Biologia Roberto Alcantara Gomes. Departamento de Biofísica e Biometria. Rio de Janeiro. BR
Almeida, Carlos Eduardo Bonacossa de; Comissão Nacional de Energia Nuclear. Instituto de Radioproteção e Dosimetria. Divisão de Monitoração Individual. Rio de Janeiro. BR
Felzenszwalb, Israel; Universidade do Estado do Rio de Janeiro. Instituto de Biologia Roberto Alcantara Gomes. Departamento de Biofísica e Biometria. Rio de Janeiro. BR
Cabral-Neto, Januário Bispo; Universidade Federal do Rio de Janeiro. Instituto de Biofísica Carlos Chagas Filho. Rio de Janeiro. BR
Leitão, Alvaro Costa; Universidade Federal do Rio de Janeiro. Instituto de Biofísica Carlos Chagas Filho. Rio de Janeiro. BR

Genet. mol. biol ; 27(2): 291-303, Jun. 2004. ilus

Article in English | LILACS | ID: lil-362902

RESUMO

RESUMO

Hydrogen peroxide is an important reactive oxygen species (ROS) that arises either during the aerobic respiration process or as a by-product of water radiolysis after exposure to ionizing radiation. The reaction of hydrogen peroxide with transition metals imposes on cells an oxidative stress condition that can result in damage to cell components such as proteins, lipids and principally to DNA, leading to mutagenesis and cell death. Escherichia coli cells are able to deal with these adverse events via DNA repair mechanisms, which enable them to recover their genome integrity. These include base excision repair (BER), nucleotide excision repair (NER) and recombinational repair. Other important defense mechanisms present in Escherichia coli are OxyR and SosRS anti-oxidant inducible pathways, which are elicited by cells to avoid the introduction of oxidative lesions by hydrogen peroxide. This review summarizes the phenomena of lethal synergism between UV irradiation (254 nm) and H2O2, the cross-adaptive response between different classes of genotoxic agents and hydrogen peroxide, and the role of copper ions in the lethal response to H2O2 under low-iron conditions.

Subject(s)

DNA Damage; Escherichia coli; Hydrogen Peroxide; Copper; Cross Reactions; Genome; Iron

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Full text: Available Index: LILACS (Americas) Main subject: DNA Damage / Escherichia coli / Hydrogen Peroxide Language: English Journal: Genet. mol. biol Journal subject: Genetics Year: 2004 Type: Article / Project document Affiliation country: Brazil Institution/Affiliation country: Comissão Nacional de Energia Nuclear/BR / Universidade Federal do Rio de Janeiro/BR / Universidade do Estado do Rio de Janeiro/BR

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