Recent developments of methyl-labeling strategies in Pichia pastoris for NMR spectroscopy

Publication date: Available online 22 October 2019Source: Protein Expression and PurificationAuthor(s): Meng ZhangAbstractNuclear magnetic resonance (NMR) spectroscopy is a primary structural biology method to characterize protein dynamics in solution. For large macromolecular systems, methyl-labeling in a perdeuterated background significantly improves the relaxation properties, while providing sensitive probes for structure and dynamics analysis. However, how to prepare methyl-labeled proteins, especially for functional eukaryotic proteins, remains to be a major bottleneck in this field. Due to its advantages in eukaryotic co-translational and post-translational modification, as well as high-density fermentation, Pichia pastoris has been a cost-effective platform strain for 13C, 15N-labeling and deuterium labeling since the early 2000's. Recently, some substantial progress has been made in methyl-labeling, such as the feasibility of 13C isoleucine δ1 methyl-labeling in perdeuterated background and the increased uptake of the Val/Leu precursor. Here, we systematically introduce the isotope-labeling strategies in P. pastoris, including strain engineering and detailed fermentation protocols in 13C, 15N-labeling and methyl-labeling, providing instructions and guidance for the future improvement of sample preparation for NMR spectroscopy.
Source: Protein Expression and Purification - Category: Biochemistry Source Type: research
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