DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades

DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades

Genomic DNA stores all genetic information and is indispensable for maintenance of normal cellular activity and propagation. Radiation causes severe DNA lesions, including double-strand breaks, and leads to genome instability and even lethality. Regardless of the toxicity of radiation, some organism...

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Bibliographic Details
Main Authors: Takuma Hashimoto, Takekazu Kunieda
Format: Article
Language:English
Published: MDPI AG 2017-06-01
Series:Life
Subjects:
tardigrade
extremophiles
radiotolerance
damage suppressor (Dsup)
reactive oxygen species (ROS)
Online Access:http://www.mdpi.com/2075-1729/7/2/26
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spelling doaj-eb05213f2de34c04a505a2e3032c9d6b2020-11-24T23:39:16ZengMDPI AGLife2075-17292017-06-01722610.3390/life7020026life7020026DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from TardigradesTakuma Hashimoto0Takekazu Kunieda1Laboratory for Radiation Biology, School of Medicine, Tohoku University, 2-1 Seiryo-machi, Aoba-ku, Sendai, Miyagi 980-8575, JapanDepartment of Biological Sciences, Graduate School of Science, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-0033, JapanGenomic DNA stores all genetic information and is indispensable for maintenance of normal cellular activity and propagation. Radiation causes severe DNA lesions, including double-strand breaks, and leads to genome instability and even lethality. Regardless of the toxicity of radiation, some organisms exhibit extraordinary tolerance against radiation. These organisms are supposed to possess special mechanisms to mitigate radiation-induced DNA damages. Extensive study using radiotolerant bacteria suggested that effective protection of proteins and enhanced DNA repair system play important roles in tolerability against high-dose radiation. Recent studies using an extremotolerant animal, the tardigrade, provides new evidence that a tardigrade-unique DNA-associating protein, termed Dsup, suppresses the occurrence of DNA breaks by radiation in human-cultured cells. In this review, we provide a brief summary of the current knowledge on extremely radiotolerant animals, and present novel insights from the tardigrade research, which expand our understanding on molecular mechanism of exceptional radio-tolerability.http://www.mdpi.com/2075-1729/7/2/26tardigradeextremophilesradiotolerancedamage suppressor (Dsup)reactive oxygen species (ROS)
collection DOAJ
language English
format Article
sources DOAJ
author Takuma Hashimoto
Takekazu Kunieda
spellingShingle Takuma Hashimoto
Takekazu Kunieda
DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades
Life
tardigrade
extremophiles
radiotolerance
damage suppressor (Dsup)
reactive oxygen species (ROS)
author_facet Takuma Hashimoto
Takekazu Kunieda
author_sort Takuma Hashimoto
title DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades
title_short DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades
title_full DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades
title_fullStr DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades
title_full_unstemmed DNA Protection Protein, a Novel Mechanism of Radiation Tolerance: Lessons from Tardigrades
title_sort dna protection protein, a novel mechanism of radiation tolerance: lessons from tardigrades
publisher MDPI AG
series Life
issn 2075-1729
publishDate 2017-06-01
description Genomic DNA stores all genetic information and is indispensable for maintenance of normal cellular activity and propagation. Radiation causes severe DNA lesions, including double-strand breaks, and leads to genome instability and even lethality. Regardless of the toxicity of radiation, some organisms exhibit extraordinary tolerance against radiation. These organisms are supposed to possess special mechanisms to mitigate radiation-induced DNA damages. Extensive study using radiotolerant bacteria suggested that effective protection of proteins and enhanced DNA repair system play important roles in tolerability against high-dose radiation. Recent studies using an extremotolerant animal, the tardigrade, provides new evidence that a tardigrade-unique DNA-associating protein, termed Dsup, suppresses the occurrence of DNA breaks by radiation in human-cultured cells. In this review, we provide a brief summary of the current knowledge on extremely radiotolerant animals, and present novel insights from the tardigrade research, which expand our understanding on molecular mechanism of exceptional radio-tolerability.
topic tardigrade
extremophiles
radiotolerance
damage suppressor (Dsup)
reactive oxygen species (ROS)
url http://www.mdpi.com/2075-1729/7/2/26
work_keys_str_mv AT takumahashimoto dnaprotectionproteinanovelmechanismofradiationtolerancelessonsfromtardigrades
AT takekazukunieda dnaprotectionproteinanovelmechanismofradiationtolerancelessonsfromtardigrades
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