AI Article Synopsis
- Azidolysis of epoxides and subsequent reduction can effectively create beta-amino alcohols, which are vital in many natural biologically active compounds.
- The process can yield two different products based on how the reaction conditions affect the nucleophilic attack on the epoxide’s carbon atoms.
- Advanced predictive models using various regression algorithms were developed to forecast the regioselectivity of this azidolysis reaction, focusing on steric hindrance and charge distribution of the substituents on the epoxide.
Article Abstract
Azidolysis of epoxides followed by reduction of the intermediate azido alcohols constitutes a valuable synthetic tool for the construction of beta-amino alcohols, an important chemical functionality occurring in many biologically active compounds of natural origin. However, depending on conditions under which the azidolysis is carried out, two regioisomeric products can be formed, as a consequence of the nucleophilic attack on both the oxirane carbon atoms. In this work, predictive models for quantitative structure-reactivity relationships were developed by means of multiple linear regression, k-nearest neighbor, locally weighted regression, and Gaussian Process regression algorithms. The specific nature of the problem at hand required the creation of appropriate new descriptors, able to properly reflect the most relevant features of molecular moieties directly involved in the opening process. The models so obtained are able to predict the regioselectivity of the azidolysis of epoxides promoted by sodium azide, in the presence of lithium perchlorate, on the basis of steric hindrance, and charge distribution of the substituents directly attached to the oxirane ring.
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