Literature DB >> 25367087

A six-dimensional alpha proton detection-based APSY experiment for backbone assignment of intrinsically disordered proteins.

Xuejun Yao1, Stefan Becker, Markus Zweckstetter.   

Abstract

Sequence specific resonance assignment is the prerequisite for the NMR-based analysis of the conformational ensembles and their underlying dynamics of intrinsically disordered proteins. However, rapid solvent exchange in intrinsically disordered proteins often complicates assignment strategies based on HN-detection. Here we present a six-dimensional alpha proton detection-based automated projection spectroscopy (APSY) experiment for backbone assignment of intrinsically disordered proteins. The 6D HCACONCAH APSY correlates the six different chemical shifts, H(α)(i - 1), C(α)(i - 1), C'(i - 1), N(i), Cα(i) and Hα(i). Application to two intrinsically disordered proteins, 140-residue α-synuclein and a 352-residue isoform of Tau, demonstrates that the chemical shift information provided by the 6D HCACONCAH APSY allows efficient backbone resonance assignment of intrinsically disordered proteins.

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Year:  2014        PMID: 25367087     DOI: 10.1007/s10858-014-9872-9

Source DB:  PubMed          Journal:  J Biomol NMR        ISSN: 0925-2738            Impact factor:   2.835


  56 in total

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Review 5.  Atomic-level characterization of disordered protein ensembles.

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Review 10.  Intrinsically disordered proteins in human diseases: introducing the D2 concept.

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5.  Liquid-liquid phase separation of the microtubule-binding repeats of the Alzheimer-related protein Tau.

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6.  Six- and seven-dimensional experiments by combination of sparse random sampling and projection spectroscopy dedicated for backbone resonance assignment of intrinsically disordered proteins.

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Review 7.  NMR Meets Tau: Insights into Its Function and Pathology.

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