化学选择性羟基转化:一个难以实现的目标。
Chemoselective hydroxyl group transformation: an elusive target.
作者信息
Trader Darci J, Carlson Erin E
机构信息
Departments of Chemistry, Indiana University, Bloomington, IN 47405, USA.
出版信息
Mol Biosyst. 2012 Oct;8(10):2484-93. doi: 10.1039/c2mb25122a.
Abstract
The selective reaction of one functional group in the presence of others is not a trivial task. A noteworthy amount of research has been dedicated to the chemoselective reaction of the hydroxyl moiety. This group is prevalent in many biologically important molecules including natural products and proteins. However, targeting the hydroxyl group is difficult for many reasons including its relatively low nucleophilicity in comparison to other ubiquitous functional groups such as amines and thiols. Additionally, many of the developed chemoselective reactions cannot be used in the presence of water. Despite these complications, chemoselective transformation of the hydroxyl moiety has been utilized in the synthesis of complex natural product derivatives, the reaction of tyrosine residues in proteins, the isolation of natural products and is the mechanism of action of myriad drugs. Here, methods for selective targeting of this group, as well as applications of several devised methods, are described.
摘要
在其他官能团存在的情况下,使某一个官能团发生选择性反应并非易事。已有大量研究致力于羟基部分的化学选择性反应。该基团在许多具有生物学重要性的分子中普遍存在,包括天然产物和蛋白质。然而,羟基的靶向反应存在诸多困难,原因包括与胺和硫醇等其他普遍存在的官能团相比,其亲核性相对较低。此外,许多已开发的化学选择性反应不能在有水的情况下使用。尽管存在这些复杂情况,但羟基部分的化学选择性转化已被用于复杂天然产物衍生物的合成、蛋白质中酪氨酸残基的反应、天然产物的分离,并且是无数药物的作用机制。在此,将描述针对该基团的选择性靶向方法以及几种已设计方法的应用。
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