可负担的氨基酸α/β-氘化和核磁共振信号增强的特异性标记:激酶p38α的评价

Rania Ghouil , Chafiaa Bouguechtouli , Hélène Chérot , Agathe Marcelot , Maxime Roche , Francois-Xavier Theillet
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摘要

虽然均匀氘化在减少大蛋白质的核磁共振弛豫方面非常有效,但成本很高,而且无论如何都不适合后生动物系统中的重组生产。我们试图探索其他氘化方案,这将适用于哺乳动物细胞中的蛋白质表达。在这里,我们评估了典型的中等大小蛋白质结构域(即40 kda大的模型激酶p38α)中氨基酸α和β位置的氘化作用的好处。我们报道了利用酶辅助的H/D交换,由胱硫氨酸γ合酶和新设计的高性能突变体E325A执行游离氨基酸的位置特异性氘化。然后,我们在细菌提取物中使用无细胞表达,以避免被测试的同位素标记氨基酸(Ala, Leu, Lys, Ser, Asp, Glu, Gly)的任何混乱和反质子化。我们的研究结果表明,当这些α/β-氘化氨基酸集成在1H-15N光谱中时,信号增强了3倍。由于我们的方法依赖于单个2Hα/β- 15n氨基酸标记,因此通过可能使用中等分辨率的SOFAST-HMQC而不是经典的HSQC或TROSY实验,灵敏度增加了三倍。这允许在1小时内以S/N ~ 10记录100 μg p38α的残留物分解溶液1H-15N NMR谱。
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Affordable amino acid α/β-deuteration and specific labeling for NMR signal enhancement: Evaluation on the kinase p38α

Although very effective in decreasing NMR relaxation of large proteins, homogeneous deuteration can be costly, and anyway unsuitable for recombinant production in metazoan systems. We sought to explore other deuteration schemes, which would be adapted to protein expression in mammalian cells. Here, we evaluate the benefits of the deuteration on alpha- and beta-positions of amino acids for a typical middle size protein domain, namely the model 40 kDa-large kinase p38α. We report the position-specific deuteration of free amino acids by using enzyme-assisted H/D exchange, executed by the cystathionine gamma-synthase and a newly designed high-performance mutant E325A. Then, we used cell-free expression in bacterial extracts to avoid any scrambling and back-protonation of the tested isotopically labelled amino acids (Ala, Leu, Lys, Ser, Asp, Glu, Gly). Our results show signal enhancements up to three in 1H-15N spectra when these α/β-deuterated amino acids are integrated. Because our approach relies on single 2Hα/β-15N-amino acid labeling, an additional three-fold increase in sensitivity is obtained by the possible use of moderate resolution SOFAST-HMQC instead of the classical HSQC or TROSY experiments. This allows recording residue-resolved solution 1H-15N NMR spectra of 100 μg of p38α in one hour with S/N∼10.

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