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Literature DB >> 22689067

A 2D ¹³C-CEST experiment for studying slowly exchanging protein systems using methyl probes: an application to protein folding.

Abstract

A 2D (13)C Chemical Exchange Saturation Transfer (CEST) experiment is presented for studying slowly exchanging protein systems using methyl groups as probes. The utility of the method is first established through studies of protein L, a small protein, for which chemical exchange on the millisecond time-scale is not observed. Subsequently the approach is applied to a folding exchange reaction of a G48M mutant Fyn SH3 domain, for which only cross-peaks derived from the folded ('ground') state are present in spectra. Fits of (15)N and methyl (13)C CEST profiles of the Fyn SH3 domain establish that the exchange reaction involves an interchange between folded and unfolded conformers, although elevated methyl (13)C transverse relaxation rates for some of the residues of the unfolded ('invisible, excited') state indicate that it likely exchanges with a third conformation as well. In addition to the kinetics of the exchange reaction, methyl carbon chemical shifts of the excited state are also obtained from analysis of the (13)C CEST data.

Entities: Chemical Disease Gene Mutation

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Year: 2012 PMID： 22689067 DOI： 10.1007/s10858-012-9640-7

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

17 in total

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Journal: J Am Chem Soc Date: 2005-11-09 Impact factor: 15.419

5. Studying "invisible" excited protein states in slow exchange with a major state conformation.

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32 in total

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3. Multiple frequency saturation pulses reduce CEST acquisition time for quantifying conformational exchange in biomolecules.

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Journal: J Biomol NMR Date: 2018-05-23 Impact factor: 2.835

4. Probing the excited-state chemical shifts and exchange parameters by nitrogen-decoupled amide proton chemical exchange saturation transfer (HN^dec-CEST).

Authors: Qinglin Wu; Benjamin A Fenton; Jessica L Wojtaszek; Pei Zhou
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5. 13Cα CEST experiment on uniformly 13C-labeled proteins.

Authors: Yang Zhou; Daiwen Yang
Journal: J Biomol NMR Date: 2014-12-04 Impact factor: 2.835

6. Intrinsic unfoldase/foldase activity of the chaperonin GroEL directly demonstrated using multinuclear relaxation-based NMR.

Authors: David S Libich; Vitali Tugarinov; G Marius Clore
Journal: Proc Natl Acad Sci U S A Date: 2015-06-29 Impact factor: 11.205

10. Characterizing slow chemical exchange in nucleic acids by carbon CEST and low spin-lock field R(1ρ) NMR spectroscopy.

Authors: Bo Zhao; Alexandar L Hansen; Qi Zhang
Journal: J Am Chem Soc Date: 2013-12-18 Impact factor: 15.419