Potential Prebiotic Relevance of Glycine Single Crystals Enclosing Fluid Inclusions: An Experimental and Computer Simulation with Static Magnetic Fields

E. Angeles-Camacho, J. Cruz-Castañeda, A. Meléndez, M. Colín-García, K. C. L. Cruz, S. Ramos-Bernal, A. Negrón-Mendoza, G. Garza-Ramos, P. Rodríguez-Zamora, C. Camargo-Raya, A. Heredia
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引用次数: 3

Abstract

Glycine crystallizes into three different polymorphs called α, β and γ under standard physicochemical conditions. They have different features depending on their structural variations. The possible interaction of glycine with magnetic minerals in meteorites and comets or in the ancient Earth, paves the way to study the self-assembly and molecular behavior under irradiation and magnetic conditions. The magnetic field might induce the formation of a specific polymorph of glycine. To gain insight on the consequences of gamma irradiation with a gradient of static magnetic fields (0.06 T, 0.3 T, 0.42 T and 0.6 T) on the self-assembly of single macroscopic glycine crystals, we gamma irradiated the powdered amino acid and then assembled single crystals from water solutions. The preliminary results showed a stable formation of fluid inclusions in the single crystals and no straightforward effect on the self-assem- bly process after glycine gamma irradiation and interaction with static magnetic fields. The α glycine polymorph single crystals formed at 55° from the magnetic longitudinal axis and seemed to be enhanced by gamma radiation. The γ-glycine single crystals presented L and D circular dichroism signals, whereas the irradiated samples presented no circular dichroism bands. Com- puter simulations suggest different catalytic properties from α and γ glycine crystals.
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甘氨酸单晶包裹流体包裹体的潜在益生相关性:静态磁场的实验和计算机模拟
在标准物理化学条件下,甘氨酸结晶成三种不同的多晶型,称为α、β和γ。根据结构变化,它们有不同的特征。甘氨酸可能与陨石、彗星或古代地球上的磁性矿物相互作用,为研究辐照和磁性条件下的自组装和分子行为铺平了道路。磁场可能诱导甘氨酸的特定多晶型的形成。为了深入了解静态磁场梯度(0.06T、0.3T、0.42T和0.6T)的伽马辐射对单个宏观甘氨酸晶体自组装的影响,我们对粉状氨基酸进行伽马辐射,然后从水溶液中组装单晶。初步结果表明,在甘氨酸γ辐照和与静磁场相互作用后,单晶中稳定形成流体包裹体,对自组装过程没有直接影响。α-甘氨酸多晶型单晶在距离磁纵轴55°处形成,似乎受到伽马辐射的增强。γ-甘氨酸单晶呈现L和D圆二色性信号,而辐照样品不呈现圆二色带。计算机模拟表明α和γ甘氨酸晶体具有不同的催化性能。
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