Ultrafast Hydrogen Migration in Photoionized Glycine

Castrovilli, Mattea Carmen; Trabattoni, Andrea; Bolognesi, P.; O’Keeffe, Patrick; Avaldi, L.; Nisoli, M.; Calegari, Francesca; Cireasa, R.

doi:10.1021/acs.jpclett.8b02089

Cited by 16 publications

(18 citation statements)

References 36 publications

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“…In particular, little is known about charge transfer and fragmentation dynamics triggered by ionization, but this gap shouldb ef illed by pump-probe experiments at the femto-or attosecond timescales, thanks to free-electron lasers operating in the X-ray energy range. [106] Charge dynamics within amino acids, [107,108] as well as DNA nucleobases and nucleosides, [109] have already recently been measured. Another effect deserving future attention is the fate of ap rotein after al ocalized ionization event.…”

Section: Discussionmentioning

confidence: 99%

Direct Radiation Effects on the Structure and Stability of Collagen and Other Proteins

et al. 2019

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In this review, recent progress in understanding the direct effects of radiation on the structure and stability of collagen, the most abundant protein in the human body, and other proteins is surveyed. Special emphasis is placed on the triple‐helical structure of collagen, as studied by means of collagen mimetic peptides. The emerging patterns are the dose dependence of radiation processes and their abundance, the crucial role of radicals in covalent‐bond formation (crosslinking) or cleavage, and the influence of the radiation energy and nature. Future research should allow fundamental questions, such as charge transfer and fragmentation dynamics triggered by ionization, to be answered, as well as developing applications such as protein‐based biomaterials, notably with properties controlled by irradiation.

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Section: Discussionmentioning

confidence: 99%

Direct Radiation Effects on the Structure and Stability of Collagen and Other Proteins

et al. 2019

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“…Recently, it was found for amino acids that the intramolecular PT from the carboxyl (−COOH) group to the amino (−NH 2 ) group will reduce the molecule’s total energy in aqueous solution or in crystals and form a so-called “zwitterion” . As being the lightest element, hydrogen exhibits ultrafast dynamics whether in classical migration , or being subject to nuclear quantum effects. ,− For example, in ionized glycine, the timescale of PT was determined to be less than 50 fs . In a recent work, Richter et al showed that intermolecular PT is fast enough to influence the electronic decay due to the coupling of the electron and nuclear dynamics in water clusters .…”

Section: Introductionmentioning

confidence: 99%

Ultrafast Proton Transfer Dynamics on the Repulsive Potential of the Ethanol Dication: Roaming-Mediated Isomerization versus Coulomb Explosion

et al. 2020

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If a molecular dication is produced on a repulsive potential energy surface (PES), it normally dissociates. Before that, however, ultrafast nuclear dynamics can change the PES and significantly influence the fragmentation pathway. Here, we investigate the electronimpact-induced double ionization and subsequent fragmentation processes of the ethanol molecule using multiparticle coincident momentum spectroscopy and ab initio dynamical simulations. For the electronic ground state of the ethanol dication, we observe several fragmentation channels that cannot be reached by direct Coulomb explosion (CE) but require preceding isomerization. Our simulations show that ultrafast hydrogen or proton transfer (PT) can stabilize the repulsive PES of the dication before the direct CE and form intermediate H 2 or H 2 O. These neutrals stay in the vicinity of the precursor, and roaming mechanisms lead to isomerization and finally PT resulting in emission of H 3 + or H 3 O + . The present findings can help to understand the complex fragmentation dynamics of molecular cations.

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“…Other potential mechanisms behind the surface-catalyzed reaction imply the formation of a zwitterionic form after proton migration . Ultrafast hydrogen migration has also been observed in ionized gas-phase amino acids, both in isolated molecules − and in a cluster environment. , …”

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confidence: 99%

“Smart Decomposition” of Cyclic Alanine-Alanine Dipeptide by VUV Radiation: A Seed for the Synthesis of Biologically Relevant Species

Barreiro-Lage

Bolognesi

Chiarinelli

et al. 2021

J. Phys. Chem. Lett.

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A combined experimental and theoretical study shows how the interaction of VUV radiation with cyclo-(alanine-alanine), one of the 2,5-diketopiperazines (DKPs), produces reactive oxazolidinone intermediates. The theoretical simulations reveal that the interaction of these intermediates with other neutral and charged fragments, released in the molecular decomposition, leads either to the reconstruction of the cyclic dipeptide or to the formation of longer linear peptide chains. These results may explain how DKPs could have, on one hand, survived hostile chemical environments and, on the other, provided the seed for amino acid polymerization. Shedding light on the mechanisms of production of such prebiotic building blocks is of paramount importance to understanding the abiotic synthesis of relevant biologically active compounds.

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Ultrafast Hydrogen Migration in Photoionized Glycine

Cited by 16 publications

References 36 publications

Direct Radiation Effects on the Structure and Stability of Collagen and Other Proteins

Direct Radiation Effects on the Structure and Stability of Collagen and Other Proteins

Ultrafast Proton Transfer Dynamics on the Repulsive Potential of the Ethanol Dication: Roaming-Mediated Isomerization versus Coulomb Explosion

“Smart Decomposition” of Cyclic Alanine-Alanine Dipeptide by VUV Radiation: A Seed for the Synthesis of Biologically Relevant Species

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