立体选择性
化学
催化作用
反应性(心理学)
对映选择合成
组合化学
生物分子
密度泛函理论
分子
立体化学
计算化学
有机化学
生物化学
医学
病理
替代医学
作者
Changhao Wang,Qianqian Qi,Wenying Li,Jingshuang Dang,Min Hao,Shuting Lv,Xingchen Dong,Youkun Gu,Peizhe Wu,Wenyue Zhang,Yashao Chen,Jörg S. Hartig
标识
DOI:10.1038/s41467-020-18554-x
摘要
Natural biomolecules have been used extensively as chiral scaffolds that bind/surround metal complexes to achieve stereoselectivity in catalytic reactions. ATP is ubiquitously found in nature as an energy-storing molecule and can complex diverse metal cations. However, in biotic reactions ATP-metal complexes are thought to function mostly as co-substrates undergoing phosphoanhydride bond cleavage reactions rather than participating in catalytic mechanisms. Here, we report that a specific Cu(II)-ATP complex (Cu2+·ATP) efficiently catalyses Diels-Alder reactions with high reactivity and enantioselectivity. We investigate the substrates and stereoselectivity of the reaction, characterise the catalyst by a range of physicochemical experiments and propose the reaction mechanism based on density functional theory (DFT) calculations. It is found that three key residues (N7, β-phosphate and γ-phosphate) in ATP are important for the efficient catalytic activity and stereocontrol via complexation of the Cu(II) ion. In addition to the potential technological uses, these findings could have general implications for the chemical selection of complex mixtures in prebiotic scenarios.
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