Yuliya O. Kuchkovska scite author profile

An efficient approach to synthesis of previously unavailable 2-substituted difluorocyclobutane building blocks was developed and applied on a multigram scale. The key step of the synthetic sequence included deoxofluorination of O-protected 2-(hydroxylmethyl)cyclobutanone. Dissociation constants (pK a) and log P values for 2,2-difluorocyclobutaneamine and 2,2-difluorocyclobutanecarboxylic acid or their derivatives were measured and compared with the values obtained for the corresponding 3,3-difluorocyclobutane derivatives and nonfluorinated counterparts. Three-dimensional structures of 2,2- and 3,3-difluorocyclobutanamines were compared using exit vector plot analysis of X-ray crystallographic data.

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Impact of Fluoroalkyl Substituents on the Physicochemical Properties of Saturated Heterocyclic Amines

Melnykov

Tavlui

Skreminskiy

et al. 2022

Chemistry A European J

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The physicochemical properties (pKa(H), log P, and aqueous solubility) of fluoroalkyl‐substituted heterocyclic amines were profiled to facilitate the amines’ rational application in medicinal chemistry research. The features of fluorine‐containing compounds were compared to those of the corresponding parent non‐fluorinated heterocycles and the corresponding fluorinated n‐alkylamines. Amine basicity was observed to change in a monotonic fashion depending on the fluorination pattern. Although the introduction of fluoroalkyl groups had complex effects on the lipophilicity and aqueous solubility of the compounds, possible contributions of the fluorination pattern, ring size, and conformation of the substituent in the ring were addressed for a series of derivatives. The summarized data provide a useful guideline for the application of fluorinated motifs for fine‐tuning a compound's properties related to drug discovery.

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3-((Hetera)cyclobutyl)azetidines, “Stretched” Analogues of Piperidine, Piperazine, and Morpholine: Advanced Building Blocks for Drug Discovery

et al. 2018

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Four 3-((hetera)cyclobutyl)azetidine-based isosteres of piperidine, piperazine, and morpholine were designed and synthesized on up to gram scale. The key step of the synthetic sequence included cyclization of N-protected 2-(azetidin-3-yl)propane-1,3-diol or the corresponding 1,3-dibromide. X-ray diffraction studies of the products obtained, followed by exit vector plot analysis of their molecular geometry, demonstrated their larger size and increased conformational flexibility as compared to the parent heterocycles and confirmed their potential utility as building blocks for lead optimization programs.

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