过渡(遗传学)
动力学(音乐)
波包
网络数据包
化学物理
化学
计算机科学
物理
计算机网络
原子物理学
生物化学
声学
基因
作者
Sarah Ghazanfari,Yulun Han,Amara Arshad,Wenjie Xia,Svetlana Kilina,Dmitri S. Kilin
标识
DOI:10.1021/acs.jpclett.5c01096
摘要
This first-principles study investigates the interactions between amino acids and various types of montmorillonite clay surfaces, including a pristine surface, a surface with an oxygen vacancy, a surface with a silicon vacancy, and an Fe-doped surface. Our results show that all clay surfaces exhibit negative binding energies, indicating that the interaction between clay and amino acids is thermodynamically favorable. Among them, the surface with a Si vacancy displays the most negative binding energy, corresponding to the strongest interaction. We also examine the reactions between two alanine molecules to form a dipeptide molecule through the elimination of a water molecule in the absence of clay surfaces. The transition state search suggests that a proton transfer plays a critical role in the peptide bond formation based on structural and energetic features observed along the reaction path. Circular dichroism spectra computed for reactant, intermediate, and product states show distinct chiral signatures. Wave packet dynamics calculations indicate that quantum tunneling might be the mechanism underlying the reduced activation energy at low temperatures. These findings offer insight into the physicochemical processes at clay-amino acid interfaces and support the design of clay-based materials with applications in biotechnology and prebiotic chemistry.
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