Possible survival of simple amino acids to X-ray irradiation in ice: the case of glycine

Pernet, A.; Pilmé, Julien; Pauzat, F.; Ellinger, Y.; Sirotti, Fausto; Silly, Mathieu G.; Parent, P.; Laffon, C.

doi:10.1051/0004-6361/201220372

Cited by 20 publications

(11 citation statements)

References 46 publications

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“…The bands at ~1131 cm −1 were assigned as rocking vibrations of NH + 3 groups, and were clearly identified over all of the samples. For glycine irradiated in the UV, however, no clear changes were noticed, which is consistent with the chemical stability of glycine against the exposure to ionizing radiation; this is in agreement with earlier observations (Pernet et al 2013). Other fingerprint bands that were absent in all spectra were those of amide I at ~1650 cm −1 and amide II at ~1550 cm −1 (black arrow in Fig.…”

Section: Resultssupporting

confidence: 93%

Ultraviolet irradiation of glycine in presence of pyrite as a model of chemical evolution: an experimental and molecular modelling approach

Cruz-López

Angel-Meraz

Colín-García

et al. 2016

International Journal of Astrobiology

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In this work, the molecular interaction of the amino acid glycine and the mineral pyrite was performed to gain insight into the potential role of the mineral as a precursor of chemical complexity in the presence of ultraviolet (UV) radiation. Glycine samples were self-assembled on pyrite with and without exposure to UV radiation and subsequently characterized by scanning electron microscopy, infrared spectroscopy (with the second-derivative method), and AM1 and PM3 semi-empirical molecular computational simulations. In this work, our molecular modelling results suggest that pyrite acts as a template for self-assembly of glycine, and it is a potential catalyst for the glycine dimerization of relevance in interstellar space and ancient Earth conditions. A change in the structural complexity of glycine from the α to its γ polymorph when irradiated with UV radiation can be a condition for chemical evolution towards living forms.

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Section: Resultssupporting

confidence: 93%

Ultraviolet irradiation of glycine in presence of pyrite as a model of chemical evolution: an experimental and molecular modelling approach

Cruz-López

Angel-Meraz

Colín-García

et al. 2016

International Journal of Astrobiology

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“…Irreversible first order kinetics was also assumed in previous studies, where a monotonic decline of the glycine concentration was observed upon irradiation of UV photons (ten Kate et al 2005;Poch et al 2013), soft X rays (Pilling et al 2011), or energetic ions in the MeV range (Pilling et al 2013;Portugal et al 2014). In other experiments, however, protons (Gerakines et al 2012), X ray (Pernet et al 2013) and UV photon (Johnson et al 2012;Maté et al 2014) processing lead to a stationary state, where a fraction of the amino acid is not decomposed. In the latter case it was generally assumed that reversible reactions within the solid sample can re-generate part of the glycine destroyed by the energetic irradiation.…”

Section: Resultsmentioning

confidence: 74%

“…Laboratory studies on the survival of glycine under irradiation by UV photons (Ehrenfreund et al 2001;Bernstein et al 2004;ten Kate et al 2005;Orzechowska et al 2007;Ferreira-Rodrigues et al 2011;Johnson et al 2012), X-rays (Pilling et al 2011;Pernet et al 2013), and high energy ions (Huang et al 1998;Gerakines et al 2012;Gerakines & Hudson 2013;Pilling et al 2013;Portugal et al 2014) have been reported by several groups during the last 15 years. The results of these works indicate that the amino acid would be readily destroyed, largely by short wavelength UV irradiation, in the diffuse ISM and in unshielded surfaces within the solar system (Ehrenfreund et al 2001;ten Kate et al 2005;Orzechowska et al 2007;Johnson et al 2012).…”

Section: Introductionmentioning

confidence: 99%

STABILITY OF EXTRATERRESTRIAL GLYCINE UNDER ENERGETIC PARTICLE RADIATION ESTIMATED FROM 2 keV ELECTRON BOMBARDMENT EXPERIMENTS

Maté

Tanarro

Escribano

et al. 2015

ApJ

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The destruction of solid glycine under irradiation with 2 keV electrons has been investigated by means of IR spectroscopy. Destruction cross sections, radiolysis yields, and half-life doses were determined for samples at 20, 40, 90, and 300 K. The thickness of the irradiated samples was kept below the estimated penetration depth of the electrons. No significant differences were obtained in the experiments below 90 K, but the destruction cross section at 300 K was larger by a factor of 2. The radiolysis yields and half-life doses are in good accordance with recent MeV proton experiments, which confirms that electrons in the keV range can be used to simulate the effects of cosmic rays if the whole sample is effectively irradiated. In the low temperature experiments, electron irradiation leads to the formation of residues. IR absorptions of these residues are assigned to the presence CO 2 , CO, OCN − , and CN − and possibly to amide bands I to III. The protection of glycine by water ice is also studied. A water ice film of ∼150 nm is found to provide efficient shielding against the bombardment of 2 keV electrons. The results of this study show also that current Monte Carlo predictions provide a good global description of electron penetration depths. The lifetimes estimated in this work for various environments ranging from the diffuse interstellar medium to the inner solar system, show that the survival of hypothetical primeval glycine from the solar nebula in present solar system bodies is not very likely.

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“…Both features are lower in energy than the corresponding 1 s →1π* transition of the pyridinic nitrogen in the imidazole ring of the ZIF-8 structure (~400.5 eV). As the imino group typically shows a transition at 398–399 eV 39 , 40 , the peak at 399 eV for ZIOS and ZIOS-Cu likely stems from the N 1 s →1π* transition of the oximate nitrogen (C=N–O) or the imidazolate pyridinic nitrogen 41 . After copper(II) ion adsorption in ZIOS, this peak for the 1 s →1π* transition intensifies significantly compared with the broad peaks at 403.2, 406.3, and 410.5 eV, which correspond to the ionization of aromatic N–H and transitions from N 1 s →σ* N–H and σ* C–N , respectively 42 .…”

Section: Resultsmentioning

confidence: 99%

A nature-inspired hydrogen-bonded supramolecular complex for selective copper ion removal from water

et al. 2020

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Herein, we present a scalable approach for the synthesis of a hydrogen-bonded organic–inorganic framework via coordination-driven supramolecular chemistry, for efficient remediation of trace heavy metal ions from water. In particular, using copper as our model ion of interest and inspired by nature’s use of histidine residues within the active sites of various copper binding proteins, we design a framework featuring pendant imidazole rings and copper-chelating salicylaldoxime, known as zinc imidazole salicylaldoxime supramolecule. This material is water-stable and exhibits unprecedented adsorption kinetics, up to 50 times faster than state-of-the-art materials for selective copper ion capture from water. Furthermore, selective copper removal is achieved using this material in a pH range that was proven ineffective with previously reported metal–organic frameworks. Molecular dynamics simulations show that this supramolecule can reversibly breathe water through lattice expansion and contraction, and that water is initially transported into the lattice through hopping between hydrogen-bond sites.

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Possible survival of simple amino acids to X-ray irradiation in ice: the case of glycine

Cited by 20 publications

References 46 publications

Ultraviolet irradiation of glycine in presence of pyrite as a model of chemical evolution: an experimental and molecular modelling approach

Ultraviolet irradiation of glycine in presence of pyrite as a model of chemical evolution: an experimental and molecular modelling approach

STABILITY OF EXTRATERRESTRIAL GLYCINE UNDER ENERGETIC PARTICLE RADIATION ESTIMATED FROM 2 keV ELECTRON BOMBARDMENT EXPERIMENTS

A nature-inspired hydrogen-bonded supramolecular complex for selective copper ion removal from water

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