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Univ. Paris-Saclay
Investigation of Promising Ancestral RNA Building Blocks
Matthew M. Brister
Case Western University, USA
Vendredi 30/06/2017, 11:00-12:00
LIDYL Bât.522, Grande salle 137-138, CEA-Saclay

Organic molecules are typically unstable under persistent irradiation with ultraviolet (UV) light. UV photons often break covalent bonds and induce a wide variety of chemical transformations. It is therefore remarkable that life is able to thrive under continuous exposure to electromagnetic radiation from the sun. In fact, biogenesis took place long before the formation of the stratospheric ozone layer and thus under conditions of severe high-energy UV radiation. As pointed out by others, this must have resulted in an extreme selection pressure for UV protection. These considerations suggest that stability to UV radiation should have been a decisive selection criterion that determined the molecular architecture of the building blocks of life during prebiotic chemistry. Although the canonical nucleobases appear to be optimal for ‘life under the sun’, it is currently thought that these nucleobases evolved from a complex mixture of molecules, i.e. the “primordial soup”. Hence, to understand the molecular origins of life, it is essential to identify potential prebiotic RNA candidates that could have evolved into the current nucleobases. From a group of RNA precursors composed of 81 heterocyclic molecules defined by 27 purine and 54 pyrimidine compounds, 2,4,6-triaminopyrimidine and barbituric acid stand out as promising candidates for the prebiotic ancestry of the RNA building blocks.

Contact : clebe

 

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