用于化学生物学的烯烃复分解反应
Olefin metathesis for chemical biology.
作者信息
Binder Joseph B, Raines Ronald T
机构信息
Department of Chemistry, University of Wisconsin-Madison, 1101 University Avenue, Madison, WI 53706-1322, USA.
出版信息
Curr Opin Chem Biol. 2008 Dec;12(6):767-73. doi: 10.1016/j.cbpa.2008.09.022. Epub 2008 Oct 18.
Abstract
Chemical biology relies on effective synthetic chemistry for building molecules to probe and modulate biological function. Olefin metathesis in organic solvents is a valuable addition to this armamentarium, and developments during the previous decade are enabling metathesis in aqueous solvents for the manipulation of biomolecules. Functional group-tolerant ruthenium metathesis catalysts modified with charged moieties or hydrophilic polymers are soluble and active in water, enabling ring-opening metathesis polymerization, cross metathesis, and ring-closing metathesis. Alternatively, conventional hydrophobic ruthenium complexes catalyze a similar array of metathesis reactions in mixtures of water and organic solvents. This strategy has enabled cross metathesis on the surface of a protein. Continuing developments in catalyst design and methodology will popularize the bioorthogonal reactivity of metathesis.
摘要
化学生物学依赖有效的合成化学来构建分子,以探测和调节生物功能。有机溶剂中的烯烃复分解反应是这一方法库中的一项重要补充,过去十年的进展使得在水性溶剂中进行复分解反应以操纵生物分子成为可能。用带电部分或亲水性聚合物修饰的耐官能团钌复分解催化剂可在水中溶解并具有活性,能够进行开环复分解聚合、交叉复分解和闭环复分解反应。另外,传统的疏水性钌配合物可在水和有机溶剂的混合物中催化一系列类似的复分解反应。这一策略已能在蛋白质表面进行交叉复分解反应。催化剂设计和方法学的持续发展将使复分解反应的生物正交反应性得到推广。
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