Ionizing Radiation and Translation Control: A Link to Radiation Hormesis?

Protein synthesis, or mRNA translation, is one of the most energy-consuming functions in cells. Translation of mRNA into proteins is thus highly regulated by and integrated with upstream and downstream signaling pathways, dependent on various transacting proteins and cis-acting elements within the s...

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Veröffentlicht in:	International journal of molecular sciences 2020-09, Vol.21 (18), p.6650, Article 6650
Hauptverfasser:	Kabilan, Usha, Graber, Tyson E., Alain, Tommy, Klokov, Dmitry
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Apoptosis Biochemistry & Molecular Biology Cancer Cell cycle Chemistry Chemistry, Multidisciplinary Defense Defense mechanisms Deoxyribonucleic acid DNA DNA repair Hormesis Hormesis - genetics Humans Ionizing radiation Life Sciences Life Sciences & Biomedicine low doses Molecular modelling mRNA mRNA translation Mutation Physical Sciences Protein biosynthesis Protein Biosynthesis - genetics Protein synthesis Proteins Radiation dosage Radiation effects radiation hormesis Radiation therapy Radiation, Ionizing Review RNA, Messenger - genetics Science & Technology Signal Transduction - genetics Stress response Transcription Translation X-rays
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description	Protein synthesis, or mRNA translation, is one of the most energy-consuming functions in cells. Translation of mRNA into proteins is thus highly regulated by and integrated with upstream and downstream signaling pathways, dependent on various transacting proteins and cis-acting elements within the substrate mRNAs. Under conditions of stress, such as exposure to ionizing radiation, regulatory mechanisms reprogram protein synthesis to translate mRNAs encoding proteins that ensure proper cellular responses. Interestingly, beneficial responses to low-dose radiation exposure, known as radiation hormesis, have been described in several models, but the molecular mechanisms behind this phenomenon are largely unknown. In this review, we explore how differences in cellular responses to high- vs. low-dose ionizing radiation are realized through the modulation of molecular pathways with a particular emphasis on the regulation of mRNA translation control.
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Translation of mRNA into proteins is thus highly regulated by and integrated with upstream and downstream signaling pathways, dependent on various transacting proteins and cis-acting elements within the substrate mRNAs. Under conditions of stress, such as exposure to ionizing radiation, regulatory mechanisms reprogram protein synthesis to translate mRNAs encoding proteins that ensure proper cellular responses. Interestingly, beneficial responses to low-dose radiation exposure, known as radiation hormesis, have been described in several models, but the molecular mechanisms behind this phenomenon are largely unknown. 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subjects	Animals Apoptosis Biochemistry & Molecular Biology Cancer Cell cycle Chemistry Chemistry, Multidisciplinary Defense Defense mechanisms Deoxyribonucleic acid DNA DNA repair Hormesis Hormesis - genetics Humans Ionizing radiation Life Sciences Life Sciences & Biomedicine low doses Molecular modelling mRNA mRNA translation Mutation Physical Sciences Protein biosynthesis Protein Biosynthesis - genetics Protein synthesis Proteins Radiation dosage Radiation effects radiation hormesis Radiation therapy Radiation, Ionizing Review RNA, Messenger - genetics Science & Technology Signal Transduction - genetics Stress response Transcription Translation X-rays
title	Ionizing Radiation and Translation Control: A Link to Radiation Hormesis?
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