Borate Minerals and RNA Stability

Borate Minerals and RNA Stability

The abiotic origin of genetic polymers faces two major problems: a prebiotically plausible polymerization mechanism and the maintenance of their polymerized state outside a cellular environment. The stabilizing action of borate on ribose having been reported, we have explored the possibility that bo...

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Main Authors: Ernesto Di Mauro, Claudia Crestini, Raffaele Saladino, Cristina Cossetti
Format: Article
Language:English
Published: MDPI AG 2010-08-01
Series:Polymers
Subjects:
origin of genetic polymers
RNA stability
RNA hydrolysis
borate minerals
Online Access:http://www.mdpi.com/2073-4360/2/3/211/
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spelling doaj-3e62e2ed76364aa09ca7c0e3c5f506d02020-11-25T00:34:33ZengMDPI AGPolymers2073-43602010-08-012321122810.3390/polym2030211Borate Minerals and RNA StabilityErnesto Di MauroClaudia CrestiniRaffaele SaladinoCristina CossettiThe abiotic origin of genetic polymers faces two major problems: a prebiotically plausible polymerization mechanism and the maintenance of their polymerized state outside a cellular environment. The stabilizing action of borate on ribose having been reported, we have explored the possibility that borate minerals stabilize RNA. We observe that borate itself does not stabilize RNA. The analysis of a large panel of minerals tested in various physical-chemical conditions shows that in general no protection on RNA backbone is exerted, with the interesting exception of ludwigite (Mg2Fe3+BO5). Stability is a fundamental property of nucleic polymers and borate is an abundant component of the planet, hence the prebiotic interest of this analysis. http://www.mdpi.com/2073-4360/2/3/211/origin of genetic polymersRNA stabilityRNA hydrolysisborate minerals
collection DOAJ
language English
format Article
sources DOAJ
author Ernesto Di Mauro
Claudia Crestini
Raffaele Saladino
Cristina Cossetti
spellingShingle Ernesto Di Mauro
Claudia Crestini
Raffaele Saladino
Cristina Cossetti
Borate Minerals and RNA Stability
Polymers
origin of genetic polymers
RNA stability
RNA hydrolysis
borate minerals
author_facet Ernesto Di Mauro
Claudia Crestini
Raffaele Saladino
Cristina Cossetti
author_sort Ernesto Di Mauro
title Borate Minerals and RNA Stability
title_short Borate Minerals and RNA Stability
title_full Borate Minerals and RNA Stability
title_fullStr Borate Minerals and RNA Stability
title_full_unstemmed Borate Minerals and RNA Stability
title_sort borate minerals and rna stability
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2010-08-01
description The abiotic origin of genetic polymers faces two major problems: a prebiotically plausible polymerization mechanism and the maintenance of their polymerized state outside a cellular environment. The stabilizing action of borate on ribose having been reported, we have explored the possibility that borate minerals stabilize RNA. We observe that borate itself does not stabilize RNA. The analysis of a large panel of minerals tested in various physical-chemical conditions shows that in general no protection on RNA backbone is exerted, with the interesting exception of ludwigite (Mg2Fe3+BO5). Stability is a fundamental property of nucleic polymers and borate is an abundant component of the planet, hence the prebiotic interest of this analysis.
topic origin of genetic polymers
RNA stability
RNA hydrolysis
borate minerals
url http://www.mdpi.com/2073-4360/2/3/211/
work_keys_str_mv AT ernestodimauro boratemineralsandrnastability
AT claudiacrestini boratemineralsandrnastability
AT raffaelesaladino boratemineralsandrnastability
AT cristinacossetti boratemineralsandrnastability
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