Department of Theoretical Chemistry, Amsterdam Institute of Molecular and Life Sciences (AIMMS), Amsterdam Center for Multiscale Modeling (ACMM) Vrije Universiteit Amsterdam, De Boelelaan 1083, 1081 HV, Amsterdam, (TheNetherlands.
Institute for Molecules and Materials (IMM), Radboud University, Heyendaalseweg 135, 6525 AJ, Nijmegen (The, Netherlands.
Chemistry. 2023 Feb 1;29(7):e202203121. doi: 10.1002/chem.202203121. Epub 2022 Dec 13.
We have quantum chemically studied the base-catalyzed Diels-Alder (DA) reaction between 3-hydroxy-2-pyrone and N-methylmaleimide using dispersion-corrected density functional theory. The uncatalyzed reaction is slow and is preceded by the extrusion of CO via a retro-DA reaction. Base catalysis, for example, by triethylamine, lowers the reaction barrier up to 10 kcal mol , causing the reaction to proceed smoothly at low temperature, which quenches the expulsion of CO , yielding efficient access to polyoxygenated natural compounds. Our activation strain analyses reveal that the base accelerates the DA reaction via two distinct electronic mechanisms: i) by the HOMO-raising effect, which enhances the normal electron demand orbital interaction; and ii) by donating charge into 3-hydroxy-2-pyrone which accumulates in its reactive region and promotes strongly stabilizing secondary electrostatic interactions with N-methylmaleimide.
我们使用含色散校正的密度泛函理论对 3-羟基-2-吡喃酮和 N-甲基马来酰亚胺之间的碱基催化 Diels-Alder(DA)反应进行了量子化学研究。未催化的反应是缓慢的,并且通过逆 DA 反应首先排出 CO。例如,三乙胺的碱基催化将反应势垒降低了 10 kcal/mol,从而使反应在低温下顺利进行,抑制了 CO 的排出,有效地获得了多氧化天然化合物。我们的应变激活分析表明,碱基通过两种不同的电子机制加速 DA 反应:i)通过 HOMO 提升效应,增强正常电子需求轨道相互作用;ii)通过向 3-羟基-2-吡喃酮供电子,其在反应区域积累并与 N-甲基马来酰亚胺强烈促进稳定的二次静电相互作用。
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