Literature DB >> 25644665

Structural heterogeneity in microcrystalline ubiquitin studied by solid-state NMR.

Hannes Klaus Fasshuber1, Nils-Alexander Lakomek, Birgit Habenstein, Antoine Loquet, Chaowei Shi, Karin Giller, Sebastian Wolff, Stefan Becker, Adam Lange.   

Abstract

By applying [1-(13) C]- and [2-(13) C]-glucose labeling schemes to the folded globular protein ubiquitin, a strong reduction of spectral crowding and increase in resolution in solid-state NMR (ssNMR) spectra could be achieved. This allowed spectral resonance assignment in a straightforward manner and the collection of a wealth of long-range distance information. A high precision solid-state NMR structure of microcrystalline ubiquitin was calculated with a backbone rmsd of 1.57 to the X-ray structure and 1.32 Å to the solution NMR structure. Interestingly, we can resolve structural heterogeneity as the presence of three slightly different conformations. Structural heterogeneity is most significant for the loop region β1-β2 but also for β-strands β1, β2, β3, and β5 as well as for the loop connecting α1 and β3. This structural polymorphism observed in the solid-state NMR spectra coincides with regions that showed dynamics in solution NMR experiments on different timescales.
© 2015 The Protein Society.

Entities:  

Keywords:  13C sparse labeling; dynamics; heterogeneity; solid-state NMR; ubiquitin

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Year:  2015        PMID: 25644665      PMCID: PMC4420510          DOI: 10.1002/pro.2654

Source DB:  PubMed          Journal:  Protein Sci        ISSN: 0961-8368            Impact factor:   6.725


  31 in total

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4.  Molecular Dynamics Simulations of Macromolecular Crystals.

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