Cancer Research UK Newcastle Drug Discovery Unit, Chemistry, School of Natural and Environmental Sciences, Newcastle University, Bedson Building, Newcastle upon Tyne, NE1 7RU, UK.
Angew Chem Int Ed Engl. 2022 Jan 17;61(3):e202111927. doi: 10.1002/anie.202111927. Epub 2021 Nov 27.
DNA-encoded libraries (DELs) are an increasingly popular approach to finding small molecule ligands for proteins. Many DEL synthesis protocols hinge on sequential additions of monomers using split-pool combinatorial methods. Therefore, compatible protecting group strategies that allow the unmasking of reactive functionality (e. g. amines and alcohols) prior to monomer coupling, or the removal of less desirable functionality (e. g., alkenes and alkynes) are highly desirable. Hydrogenation/hydrogenolysis procedures would achieve these ends but have not been amenable to DEL chemistry. We report a catalytic hydrogen transfer reaction using Pd/C, HCONH and the micelle-forming surfactant, TPGS-750-M, which gives highly efficient conversions for hydrogenolysis of Cbz-protected amines and benzyl protected alcohols and hydrogenation of nitros, halides, nitriles, aldehydes, alkenes and alkynes. Application to multicycle synthesis of an encoded compound was fully compatible with DNA-amplification and sequencing, demonstrating its applicability to DEL synthesis. This method will enable synthetic DEL sequences using orthogonal protecting groups.
DNA 编码文库 (DEL) 是一种越来越受欢迎的方法,可用于寻找蛋白质的小分子配体。许多 DEL 合成方案依赖于使用分池组合方法进行单体的顺序添加。因此,需要兼容的保护基策略,这些策略允许在单体偶联之前解蔽反应性功能(例如胺和醇),或者去除不太理想的功能(例如烯烃和炔烃)。氢化/氢解程序可以达到这些目的,但不适用于 DEL 化学。我们报告了一种使用 Pd/C、HCONH 和胶束形成表面活性剂 TPGS-750-M 的催化氢转移反应,该反应可高效地进行 Cbz 保护的胺的氢解、苄基保护的醇的氢解以及亚硝化物、卤化物、腈、醛、烯烃和炔烃的氢化。该方法在多轮合成编码化合物中的应用与 DNA 扩增和测序完全兼容,证明了其在 DEL 合成中的适用性。该方法将能够使用正交保护基合成合成 DEL 序列。
