Study of the binding of copper (II) ions to the heavy chain of silk fibroin using the charmm22 force field

Gulinur Polvonova, Khushnudbek Eshchanov, Risolat Esomurodova
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Abstract

Silk fibroin is of great interest due to its unique mechanical properties and preparation of biomaterials. It is important to study the mechanisms of the interaction of fibroin with metal ions and the composition of the resulting complexes. We studied the possibilities of coordination binding of copper (II) ions to the heavy chain of the silk fibroin molecule of calculations using the CHARMM22 force field and determined the optimal parts for coordination bonds. To practically confirm the results obtained in theoretical calculations, samples of fibroin containing copper (II) ions were analyzed by ATR-FTIR spectroscopy, and it was proved that copper ions are coordinately bound to the groups in fibroin. The agreement of the results obtained in the theoretical calculations with the results of the actual analysis confirms that indeed, copper (II) ions correspond to the conditions studied by modelling.  
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利用 charmm22 力场研究铜 (II) 离子与蚕丝纤维素重链的结合情况
蚕丝纤维素因其独特的机械特性和生物材料的制备而备受关注。研究纤维素与金属离子的相互作用机理以及由此产生的复合物的组成非常重要。我们利用 CHARMM22 力场计算研究了铜(II)离子与蚕丝纤维蛋白分子重链配位结合的可能性,并确定了配位键的最佳部分。为了实际证实理论计算的结果,我们用 ATR-FTIR 光谱分析了含有铜 (II) 离子的纤维素样品,结果证明铜离子与纤维素中的基团配位结合。理论计算结果与实际分析结果的一致性证实,铜 (II) 离子确实符合模型研究的条件。
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