The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family
Organisms living in polar waters must cope with an extremely stressful environment dominated by freezing temperatures, high oxygen concentrations and UV radiation. To shed light on the genetic mechanisms on which the polar marine ciliate, Euplotes nobilii, relies to effectively cope with the oxidati...
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sg-ntu-dr.10356-884132020-09-21T11:34:08Z The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family Ricci, Francesca Bakiu, Rigers Santovito, Gianfranco Lauro, Federico M. Grzymski, Joseph J. Read, Robert Luporini, Pierangelo Vallesi, Adriana Singapore Centre for Environmental Life Sciences Engineering MsrB Proteins Oxidative Stress DRNTU::Science Organisms living in polar waters must cope with an extremely stressful environment dominated by freezing temperatures, high oxygen concentrations and UV radiation. To shed light on the genetic mechanisms on which the polar marine ciliate, Euplotes nobilii, relies to effectively cope with the oxidative stress, attention was focused on methionine sulfoxide reductases which repair proteins with oxidized methionines. A family of four structurally distinct MsrB genes, encoding enzymes specific for the reduction of the methionine-sulfoxide R-forms, were identified from a draft of the E. nobilii transcriptionally active (macronuclear) genome. The En-MsrB genes are constitutively expressed to synthesize proteins markedly different in amino acid sequence, number of CXXC motifs for zinc-ion binding, and presence/absence of a cysteine residue specific for the mechanism of enzyme regeneration. The En-MsrB proteins take different localizations in the nucleus, mitochondria, cytosol and endoplasmic reticulum, ensuring a pervasive protection of all the major subcellular compartments from the oxidative damage. These observations have suggested to regard the En-MsrB gene activity as playing a central role in the genetic mechanism that enables E. nobilii and ciliates in general to live in the polar environment. Published version 2018-09-04T07:10:16Z 2019-12-06T17:02:47Z 2018-09-04T07:10:16Z 2019-12-06T17:02:47Z 2017 Journal Article Ricci, F., Lauro, F. M., Grzymski, J. J., Read, R., Bakiu, R., Santovito, G., ...Vallesi, A. (2017). The anti-oxidant defense system of the marine polar ciliate euplotes nobilii: characterization of the msrB gene family. Biology, 6(1), 4-. doi:10.3390/biology6010004 2079-7737 https://hdl.handle.net/10356/88413 http://hdl.handle.net/10220/45807 10.3390/biology6010004 en Biology © 2017 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC-BY) license (http://creativecommons.org/licenses/by/4.0/). 13 p. application/pdf |
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English |
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MsrB Proteins Oxidative Stress DRNTU::Science |
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MsrB Proteins Oxidative Stress DRNTU::Science Ricci, Francesca Bakiu, Rigers Santovito, Gianfranco Lauro, Federico M. Grzymski, Joseph J. Read, Robert Luporini, Pierangelo Vallesi, Adriana The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family |
| description |
Organisms living in polar waters must cope with an extremely stressful environment dominated by freezing temperatures, high oxygen concentrations and UV radiation. To shed light on the genetic mechanisms on which the polar marine ciliate, Euplotes nobilii, relies to effectively cope with the oxidative stress, attention was focused on methionine sulfoxide reductases which repair proteins with oxidized methionines. A family of four structurally distinct MsrB genes, encoding enzymes specific for the reduction of the methionine-sulfoxide R-forms, were identified from a draft of the E. nobilii transcriptionally active (macronuclear) genome. The En-MsrB genes are constitutively expressed to synthesize proteins markedly different in amino acid sequence, number of CXXC motifs for zinc-ion binding, and presence/absence of a cysteine residue specific for the mechanism of enzyme regeneration. The En-MsrB proteins take different localizations in the nucleus, mitochondria, cytosol and endoplasmic reticulum, ensuring a pervasive protection of all the major subcellular compartments from the oxidative damage. These observations have suggested to regard the En-MsrB gene activity as playing a central role in the genetic mechanism that enables E. nobilii and ciliates in general to live in the polar environment. |
| author2 |
Singapore Centre for Environmental Life Sciences Engineering |
| author_facet |
Singapore Centre for Environmental Life Sciences Engineering Ricci, Francesca Bakiu, Rigers Santovito, Gianfranco Lauro, Federico M. Grzymski, Joseph J. Read, Robert Luporini, Pierangelo Vallesi, Adriana |
| format |
Article |
| author |
Ricci, Francesca Bakiu, Rigers Santovito, Gianfranco Lauro, Federico M. Grzymski, Joseph J. Read, Robert Luporini, Pierangelo Vallesi, Adriana |
| author_sort |
Ricci, Francesca |
| title |
The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family |
| title_short |
The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family |
| title_full |
The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family |
| title_fullStr |
The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family |
| title_full_unstemmed |
The anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family |
| title_sort |
anti-oxidant defense system of the marine polar ciliate euplotes nobilii : characterization of the msrb gene family |
| publishDate |
2018 |
| url |
https://hdl.handle.net/10356/88413 http://hdl.handle.net/10220/45807 |
| _version_ |
1681057971316981760 |