Oxidative Stress in Bacteria and the Central Dogma of Molecular Biology

Ever since the “great oxidation event,” Earth’s cellular life forms had to cope with the danger of reactive oxygen species (ROS) affecting the integrity of biomolecules and hampering cellular metabolism circuits. Consequently, increasing ROS levels in the biosphere represented growing stress levels...

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Veröffentlicht in:Frontiers in molecular biosciences Jg. 8; S. 671037
Hauptverfasser: Fasnacht, Michel, Polacek, Norbert
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Frontiers Media S.A 10.05.2021
Schlagworte:
DNA damage
Molecular Biosciences
oxidative damage
oxidative stress
protein damage
RNA damage
ROS
ISSN:2296-889X, 2296-889X
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Abstract Ever since the “great oxidation event,” Earth’s cellular life forms had to cope with the danger of reactive oxygen species (ROS) affecting the integrity of biomolecules and hampering cellular metabolism circuits. Consequently, increasing ROS levels in the biosphere represented growing stress levels and thus shaped the evolution of species. Whether the ROS were produced endogenously or exogenously, different systems evolved to remove the ROS and repair the damage they inflicted. If ROS outweigh the cell’s capacity to remove the threat, we speak of oxidative stress. The injuries through oxidative stress in cells are diverse. This article reviews the damage oxidative stress imposes on the different steps of the central dogma of molecular biology in bacteria, focusing in particular on the RNA machines involved in transcription and translation.
AbstractList Ever since the “great oxidation event,” Earth’s cellular life forms had to cope with the danger of reactive oxygen species (ROS) affecting the integrity of biomolecules and hampering cellular metabolism circuits. Consequently, increasing ROS levels in the biosphere represented growing stress levels and thus shaped the evolution of species. Whether the ROS were produced endogenously or exogenously, different systems evolved to remove the ROS and repair the damage they inflicted. If ROS outweigh the cell’s capacity to remove the threat, we speak of oxidative stress. The injuries through oxidative stress in cells are diverse. This article reviews the damage oxidative stress imposes on the different steps of the central dogma of molecular biology in bacteria, focusing in particular on the RNA machines involved in transcription and translation.
Ever since the "great oxidation event," Earth's cellular life forms had to cope with the danger of reactive oxygen species (ROS) affecting the integrity of biomolecules and hampering cellular metabolism circuits. Consequently, increasing ROS levels in the biosphere represented growing stress levels and thus shaped the evolution of species. Whether the ROS were produced endogenously or exogenously, different systems evolved to remove the ROS and repair the damage they inflicted. If ROS outweigh the cell's capacity to remove the threat, we speak of oxidative stress. The injuries through oxidative stress in cells are diverse. This article reviews the damage oxidative stress imposes on the different steps of the central dogma of molecular biology in bacteria, focusing in particular on the RNA machines involved in transcription and translation.Ever since the "great oxidation event," Earth's cellular life forms had to cope with the danger of reactive oxygen species (ROS) affecting the integrity of biomolecules and hampering cellular metabolism circuits. Consequently, increasing ROS levels in the biosphere represented growing stress levels and thus shaped the evolution of species. Whether the ROS were produced endogenously or exogenously, different systems evolved to remove the ROS and repair the damage they inflicted. If ROS outweigh the cell's capacity to remove the threat, we speak of oxidative stress. The injuries through oxidative stress in cells are diverse. This article reviews the damage oxidative stress imposes on the different steps of the central dogma of molecular biology in bacteria, focusing in particular on the RNA machines involved in transcription and translation.
Author Polacek, Norbert
Fasnacht, Michel
AuthorAffiliation 1 Department of Chemistry, Biochemistry and Pharmaceutical Sciences, University of Bern, Bern , Switzerland
2 Graduate School for Cellular and Biomedical Sciences, University of Bern, Bern , Switzerland
AuthorAffiliation_xml – name: 1 Department of Chemistry, Biochemistry and Pharmaceutical Sciences, University of Bern, Bern , Switzerland
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  surname: Fasnacht
  fullname: Fasnacht, Michel
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  givenname: Norbert
  surname: Polacek
  fullname: Polacek, Norbert
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Edited by: Claudio Scazzocchio, Imperial College London, United Kingdom
This article was submitted to Protein and RNA Networks, a section of the journal Frontiers in Molecular Biosciences
Reviewed by: Esa Tyystjärvi, University of Turku, Finland
Sunny Sharma, Rutgers, The State University of New Jersey, United States
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PublicationDate 2021-05-10
PublicationDateYYYYMMDD 2021-05-10
PublicationDate_xml – month: 05
  year: 2021
  text: 2021-05-10
  day: 10
PublicationDecade 2020
PublicationTitle Frontiers in molecular biosciences
PublicationYear 2021
Publisher Frontiers Media S.A
Publisher_xml – name: Frontiers Media S.A
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Snippet Ever since the “great oxidation event,” Earth’s cellular life forms had to cope with the danger of reactive oxygen species (ROS) affecting the integrity of...
Ever since the "great oxidation event," Earth's cellular life forms had to cope with the danger of reactive oxygen species (ROS) affecting the integrity of...
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SubjectTerms DNA damage
Molecular Biosciences
oxidative damage
oxidative stress
protein damage
RNA damage
ROS
Title Oxidative Stress in Bacteria and the Central Dogma of Molecular Biology
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