John M. Antos, Jessica Ingram, Tao Fang, Novalia Pishesha, Matthias C. Truttmann, Hidde L. Ploegh
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引用次数: 121
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Abstract
Strategies for site-specific protein modification are highly desirable for the construction of conjugates containing non-genetically-encoded functional groups. Ideally, these strategies should proceed under mild conditions, and be compatible with a wide range of protein targets and non-natural moieties. The transpeptidation reaction catalyzed by bacterial sortases is a prominent strategy for protein derivatization that possesses these features. Naturally occurring or engineered variants of sortase A from Staphylococcus aureus catalyze a ligation reaction between a five-amino-acid substrate motif (LPXTG) and oligoglycine nucleophiles. By pairing proteins and synthetic peptides that possess these ligation handles, it is possible to install modifications onto the protein N- or C-terminus in site-specific fashion. As described in this unit, the successful implementation of sortase-mediated labeling involves straightforward solid-phase synthesis and molecular biology techniques, and this method is compatible with proteins in solution or on the surface of live cells. © 2017 by John Wiley & Sons, Inc.
通过sortase介导的转肽酶进行位点特异性蛋白标记
位点特异性蛋白修饰的策略对于构建含有非遗传编码功能基团的偶联物是非常可取的。理想情况下,这些策略应该在温和的条件下进行,并与广泛的蛋白质靶点和非天然部分兼容。细菌分选酶催化的转肽化反应是一种重要的蛋白质衍生化策略,具有这些特点。来自金黄色葡萄球菌的自然发生或工程变异的分类酶A催化五氨基酸底物基序(LPXTG)和低聚甘氨酸亲核试剂之间的连接反应。通过配对蛋白质和具有这些连接手柄的合成肽,可以以特定位点的方式将修饰安装到蛋白质的N端或c端。如本单元所述,排序酶介导标记的成功实施涉及直接的固相合成和分子生物学技术,该方法与溶液或活细胞表面的蛋白质兼容。©2017 by John Wiley &儿子,Inc。
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