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Author:
Date:
2016-09-05
[Abstract] The half-life of a protein is a characteristic property, and can be modulated by post-translational modifications, changes in subcellular localization, and/or interaction with other proteins or ligands. As one determinant of its steady-state level, a protein’s degradation represents an important distinguishing attribute relevant to its biological function. Because protein longevity cannot be elucidated from bioinformatics analyses, it must be determined empirically. Here we describe two approaches for in vivo half-life determination in plants: 1. pooled-seedling degradation assays monitoring either tagged versions of the protein (luciferase fusions or other epitope tags) or following the endogenous protein; 2. single-seedling degradation assays using luciferase fusion proteins. ...
[摘要] 蛋白质的半衰期是特征性质,并且可以通过翻译后修饰,亚细胞定位的改变和/或与其他蛋白质或配体的相互作用来调节。 作为其稳态水平的一个决定因素,蛋白质的降解代表与其生物学功能相关的重要的区别属性。 由于蛋白质的寿命不能从生物信息学分析中阐明,必须根据经验确定。 这里我们描述了在植物中体内半衰期测定的两种方法:1.监测蛋白质(萤光素酶融合物或其它表位标签)的标记形式或遵循内源蛋白质的混合 - 幼苗降解测定; 2.使用荧光素酶融合蛋白的单胚芽降解测定。 这些方法的优点是它们的简单性和低成本。
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