2011
DOI: 10.1016/j.radphyschem.2010.08.012
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Solid state radiolysis of amino acids in an astrochemical perspective

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Cited by 25 publications
(18 citation statements)
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“…Using a mathematical treatment reported in detail elsewhere (Iglesias-Groth et al 2011;Cataldo et al 2010a), we have determined the radiolysis rate constant of each amino acid k dsc and the radioracemization rate constant k rac in year -1 as reported in Table 2 respectively. As expected from the previous discussion on the N c and R c values, the k dsc and k rac have the same order of magnitude ranging from 10 -10 year -1 for the less radiation resistant amino acids to 10 -11 year -1 for the most radiation resistant.…”
Section: The Amino Acids Stability To Radiation and Radioracemizationmentioning
confidence: 99%
See 1 more Smart Citation
“…Using a mathematical treatment reported in detail elsewhere (Iglesias-Groth et al 2011;Cataldo et al 2010a), we have determined the radiolysis rate constant of each amino acid k dsc and the radioracemization rate constant k rac in year -1 as reported in Table 2 respectively. As expected from the previous discussion on the N c and R c values, the k dsc and k rac have the same order of magnitude ranging from 10 -10 year -1 for the less radiation resistant amino acids to 10 -11 year -1 for the most radiation resistant.…”
Section: The Amino Acids Stability To Radiation and Radioracemizationmentioning
confidence: 99%
“…Thus, its faster radiolytic decomposition is compensated by its higher relative concentration (with respect to the other amino acids) at the origins. On the other hand, an amino acid with exceptional radiolysis and radioracemization resistance is tyrosine (Cataldo et al 2010a). The fact that tyrosine was not reported as component of the amino acids mixture found in meteorites can be explained with the fact that it is commonly thought that it was formed in a later stage of chemical evolution as derivative of phenylalanine as shown experimentally by Taguchi et al 2001.…”
Section: The Amino Acids Stability To Radiation and Radioracemizationmentioning
confidence: 99%
“…Draganic et al have estimated that a cometary nucleus of 10 km radius would contain radionuclides that would emit ~14 MGy of radiation over 4.5 billion years (the age of the Solar System); the majority of this radiation (11 MGy) occurring in the first tens of millions of years due to 26 Al decay (Draganic et al, 1984). Many other studies investigating the radiolysis of organic compounds have adopted this dose of 14 MGy for asteroids and comets in general (Cataldo et al, 2011b;Cataldo et al, 2011a;Cherubini et al, 2014;Iglesias-Groth et al, 2011). Our total dose of ~1 MGy approximates hundreds of million years' worth of γ-radiation emitted in meteorite parent bodies due to slow radionuclide decay.…”
Section: Comparison Of Results With Estimated Cosmic Radiation Dosesmentioning
confidence: 99%
“…On the other hand, it is well known that prebiotic molecules easily decompose upon exposure to vacuum ultraviolet (VUV) light (Nakagawa et al 2000;Ehrenfreund et al 2001;Peeters et al 2003;ten Kate et al 2005;Izumi et al 2008;Tanaka et al 2008), Xrays (Zubavichus et al 2004;Kaneko et al 2005), and high energy particles (Bonner and Lemmon 1978;Bonner et al 1982;Bonner et al 1985;Cataldo et al 2011). The detection of amino acids in meteorites shows that complex organics can survive exposure to radiation during their flight through space to Earth.…”
Section: Introductionmentioning
confidence: 99%