Super High Throughput Screening (SHTS) of Chiral Ligands and Activators: Asymmetric Activation of Chiral Diol–Zinc Catalysts by Chiral Nitrogen Activators for the Enantioselective Addition of Diethylzinc to Aldehydes

The most effective catalyst system for the enantioselective alkylation of an aldehyde on the basis of “asymmetric activation” can be found by super high throughput screening of chiral ligands (L*) and activators (A*) for the diethylzinc complex. The product, an optically active alcohol, could be obtained with 99% ee and in up to 100% yield (see reaction scheme). R=benzylidene.     

Chiral Amine Synthesis Using ω‐Transaminases: An Amine Donor that Displaces Equilibria and Enables High‐Throughput Screening

The widespread application of ω‐transaminases as biocatalysts for chiral amine synthesis has been hampered by fundamental challenges, including unfavorable equilibrium positions and product inhibition. Herein, an efficient process that allows reactions to proceed in high conversion in the absence of by‐product removal using only one equivalent of a diamine donor (ortho‐xylylenediamine) is reported. This operationally simple method is compatible with the most widely used (R)‐ and (S)‐selective ω‐TAs and is particularly suitable for the conversion of substrates with unfavorable equilibrium positions (e.g., 1‐indanone). Significantly, spontaneous polymerization of the isoindole by‐product generates colored derivatives, providing a high‐throughput screening platform to identify desired ω‐TA activity.     

催化不对称反应新进展—不对称活化

介绍了催化不对称催化反应中的一个新概念一不对称活化(asymmetric activation)及其研究的最新进展。运用不对称活化策略,一个光学活性的或者甚至外消旋的催化剂可以被另一种手性活化剂(chiral activator)选择性地活化,从而催化反应生成非外消旋产物。该方法较不对称去活化(asymmetric deactivation)方法的优点是被活化的催化剂能够产生较使用光学纯催化剂更高对映体过量的产物。     

Application of a Supramolecular‐Ligand Library for the Automated Search for Catalysts for the Asymmetric Hydrogenation of Industrially Relevant Substrates

A procedure is described for the automated screening and lead optimization of a supramolecular‐ligand library for the rhodium‐catalyzed asymmetric hydrogenation of five challenging substrates relevant to industry. Each catalyst is (self‐) assembled from two urea‐functionalized ligands and a transition‐metal center through hydrogen‐bonding interactions. The modular ligand structure consists of three distinctive fragments: the urea binding motif, the spacer, and the ligand backbone, which carries the phosphorus donor atom. The building blocks for the ligand synthesis are widely available on a commercial basis, thus enabling access to a large number of ligands of high structural diversity. The simple synthetic steps enabled the scale‐up of the ligand synthesis to multigram quantities. For the catalyst screening, a library of twelve new chiral ligands was prepared that comprised substantial variation in electronic and steric properties. The automated procedures employed ensured the fast catalyst assembly, screening, and direct acquisition of samples for analysis. It appeared that the most selective catalyst was different for every substrate investigated and that small variations in the building blocks had a major impact on the catalyst performance. For two substrates, a catalyst was found that provided the product with outstanding enantioselectivity. The subsequent automated optimization of these two leads showed that an increase of catalyst loading, dihydrogen pressure, and temperature had a positive effect on the catalyst activity without affecting the catalyst selectivity.     

临近闪烁分析法在高通量筛选中的应用

起源于放射性免疫分析的临近闪烁分析法(scintillation proximity assay,SPA)是一种均相、灵敏、快速和简便的基于闪烁载体的分析平台。该平台可用于筛选药物靶点的先导化合物和研究其生理过程。由于无需分离,易于固定药物靶点和检测其活性,SPA成为一种重要的高通量筛选方法。由于放射性标记分子和亲和标签分子的多样化和商业化、以及液闪计数器和液相操作等技术的发展,SPA已经广泛用于受体结合、高通量药物筛选、酶分析、放射性免疫分析、蛋白质-蛋白质相互作用和细胞水平分析等方面。本文阐述了SPA原理,讨论了其关键技术(包括闪烁载体、液闪计数器和放射性标记分子),分析了其评价体系;同时简述了SPA分析的发展, 并介绍了其在高通量筛选中的应用实例, 归纳了存在的问题,给出了未来的发展趋势。目前,基于SPA和荧光分析方法已成为高通量药物筛选的热点研究领域, 这些筛选技术的革新必然提升我们对细胞体系生物学的全面理解和促进先导化合物筛选过程的显著进步。     

不对称合成中手性磷配体催化剂的研究进展 (Ⅱ) (续完)

评述了作为配体催化剂的手性三配位及四配位磷化合物的合成及其在某些不对称合成反应中的应用     

New Chiral Calixsalen Chromium Complexes: Recyclable Asymmetric Catalysts

A chiral N,N′‐bis(salicylidene)ethylenediamine (salen) polymer has been prepared by a condensation reaction between a thiophenedisalicyladehyde derivative and (S,S)‐cyclohexane‐1,2‐diamine. This polymeric compound was demonstrated to possess a cyclic structure with two to five repetitive units. The addition of chromium(II) salts led to the generation of a chiral catalyst that could be recovered as an insoluble powder. The performance of this new calixsalen‐type catalyst was examined in various transformations, particularly in its ability to promote nucleophilic epoxide ring opening under heterogeneous conditions. The target products were obtained in high yields and with improved selectivity compared with those obtained by using analogous linear polymers. The arrangement of the catalytic sites in the cyclic structure is probably more suitable for the necessary cooperative bimetallic pathway of this demanding reaction. The catalyst could be successfully recycled. This approach represents the first use of calixsalen complexes under heterogeneous catalytic conditions.     

手性催化剂在不对称羰基ene反应中的应用

手性高烯丙基醇类化合物是一类非常重要的有机合成中间体,被广泛应用于药物分子和天然产物的合成中,不对称羰基ene反应是构建此类化合物最有效的方法之一,近年来已经取得了巨大进展。目前,在不对称羰基ene反应中的手性催化剂主要有如Mg、Ca、Sc、Ti、Co、Ni、Cu、Rh、Pd、Pt等金属与手性配体络合形成的配合物,以及一些手性有机小分子,大部分都取得了较好的催化活性与对映选择性。本文就此评述了各类手性催化剂在不对称羰基ene反应中的应用,不对称诱导反应的机理,以及催化剂分子结构及反应条件对催化活性和对映选择性的影响。     

手性金属配合物催化的不对称环丙烷化反应的新进展

总结了近年来关于环丙烷化反应中各种手性金属催化剂的研究进展, 包括席夫碱、噁唑啉、卟啉、联吡啶及四吡啶、羧酸酯等类型的手性化合物作为配体的金属催化剂.     

烯烃的有机催化不对称环氧化研究进展及催化剂设计

介绍了用氧杂氮杂环丙烷、手性亚胺盐、手性酮、手性胺为催化剂的烯烃有机催化不对称环氧化反应,对各种体系催化机理进行介绍,并就手性催化剂的设计提出了构想.     

C3 Symmetry in Asymmetric Catalysis and Chiral Recognition

Rotational symmetry can be an important factor in the design of highly selective receptors for chiral recognition. This is well known for C₂-symmetric compounds, but the concept can be extended to chiral compounds of higher symmetry such as 1 .     

三氟甲基磺酸铜(II)手性衍生物:不对称合成中的一类高效催化剂

三氟甲基磺酸铜 [Cu(OTf) 2 ]与各种手性磷氮配体络合催化不对称合成已取得了巨大进展 .详细评述了近五年来该类手性铜催化剂在各种不对称催化反应中的最新应用     

Substrate‐Induced Dimerization Assembly of Chiral Macrocycle Catalysts toward Cooperative Asymmetric Catalysis

An artificial system of substrate‐induced dimerization assembly of chiral macrocycle catalysts enables a highly cooperative hydrogen‐bonding activation network for efficient enantioselective transformation. These macrocycles contain two thiourea and two chiral diamine moieties and dimerize with sulfate to form a sandwich‐like assembly. The macrocycles then adopt an extended conformation and reciprocally complement the hydrogen‐bonding interaction sites. Inspired by the guest‐induced dynamic assembly, these macrocycles catalyze the decarboxylative Mannich reaction of cyclic aldimines containing a sulfamate heading group. The imine substrate can be activated toward nucleophilic attack of β‐ketoacid by a cooperative hydrogen‐bonding network enabled by sulfamate‐induced dimerization assembly of the macrocycle catalysts. Highly efficient (>95 % yield in most cases) and enantioselective (up to 97.5:2.5 er) transformation of a variety of substrates using only 5 mol % macrocycle was achieved.     

Design of a High Throughput 25‐Well Parallel Electrolyzer for the Accelerated Discovery of CO2 Reduction Catalysts via a Combinatorial Approach

A combinatorial approach is described for screening homogeneous CO₂ reduction electrocatalysts by means of a high‐throughput 25‐well parallel electrolyzer. Active catalysts were then screened by three methods: (1) the presence of CO gas in the electrolyzer head space; (2) a pH change for the individual solutions before and after bulk electrolysis due to proton consumption during CO₂ reduction; and (3) other physical attributes. Based on these screening methods, two solutions out of the 25 were selected for further study. One out of two selected solutions, nickel cyclam, a well‐known CO₂ reduction electrocatalyst, was correctly identified to be the most active.     

不对称合成中手性磷配体催化剂的研究进展(Ⅰ)(待续)

评述了作为配体催化剂的手性三配位及四配位磷化合物的合成及其在某些不对称的合反应中的应用