Anomalous Properties of Lys Residues Buried in the Hydrophobic Interior of a Protein Revealed With 15N-Detect NMR Spectroscopy.
J Phys Chem Lett. 2017 Dec 21;:
Authors: Kougentakis CM, Grasso EM, Robinson AC, Caro JA, Schlessman JL, Majumdar A, Garcia-Moreno Estava B
Abstract
Ionizable residues buried in hydrophobic environments in proteins are essential for many fundamental biochemical processes. These residues titrate with anomalous pKa values that are challenging to reproduce with structure-based calculations owing to the conformational reorganization coupled to their ionization. Detailed characterization of this conformational reorganization is of interest; unfortunately, the properties of buried Lys residues are difficult to study experimentally. Here we demonstrate the utility of 15N NMR spectroscopy to gain insight into the protonation state, state of hydration and conformational dynamics of the N? amino group of buried Lys residues. The experiments were applied to five variants of staphylococcal nuclease, with internal Lys residues in that titrate with pKa values ranging from 6.2 to 8. Direct detection of buried Lys residues with these NMR spectroscopy methods will enable correlation between thermodynamic and structural data as well as unprecedented examination of how conformational transitions coupled to their ionization affect their pKa values.
PMID: 29266956 [PubMed - as supplied by publisher]
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Existence of isolated H3O+ in the protein interior
Neutron diffraction analysis studies reported an isolated hydronium ion (H3O+) in the interior of D-xylose isomerase (XI) and phycocyanobilin-ferredoxin oxidoreductase (PcyA). H3O+ forms hydrogen bonds (H-bonds) with two histidine side-chains and a backbone carbonyl group in PcyA, whereas H3O+ forms H-bonds with three acidic residues in XI. Using a quantum mechanical/molecular mechanical (QM/MM) approach, we analyzed stabilization of H3O+ by the protein environment. QM/MM calculations indicated that H3O+ was unstable in the PcyA crystal...
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Authors: Piai A, Calçada EO, Tarenzi T, Grande AD, Varadi M, Tompa P, Felli IC, Pierattelli R
Abstract
Here, we present a structural and dynamic description of CBP-ID4 at atomic resolution. ID4 is the fourth intrinsically disordered linker of CREB-binding protein (CBP). In spite of the...
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J Phys Chem B. 2015 Nov 3;
Authors: Vugmeyster L, Ostrovsky D, Villafranca TR, Sharp J, Xu W, Lipton AS, Hoatson GL, Vold RL
Abstract
We conducted a detailed investigation of the dynamics of two phenylalanine side chains in the...
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[NMR paper] (15)N CSA tensors and (15)N-(1)H dipolar couplings of protein hydrophobic core residues investigated by static solid-state NMR.
(15)N CSA tensors and (15)N-(1)H dipolar couplings of protein hydrophobic core residues investigated by static solid-state NMR.
(15)N CSA tensors and (15)N-(1)H dipolar couplings of protein hydrophobic core residues investigated by static solid-state NMR.
J Magn Reson. 2015 Sep 3;259:225-231
Authors: Vugmeyster L, Ostrovsky D, Fu R
Abstract
In this work, we assess the usefulness of static (15)N NMR techniques for the determination of the (15)N chemical shift anisotropy (CSA) tensor parameters and (15)N-(1)H dipolar splittings in...
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15N CSA Tensors and 15N-1H Dipolar Couplings of Protein Hydrophobic Core Residues Investigated by Static Solid-State NMR
15N CSA Tensors and 15N-1H Dipolar Couplings of Protein Hydrophobic Core Residues Investigated by Static Solid-State NMR
Publication date: Available online 3 September 2015
Source:Journal of Magnetic Resonance</br>
Author(s): Liliya Vugmeyster, Dmitry Ostrovsky, Riqiang Fu</br>
In this work, we assess the usefulness of static 15N NMR techniques for the determination of the 15N chemical shift anisotropy (CSA) tensor parameters and 15N-1H dipolar splittings in powder protein samples. By using five single labeled samples of the villin headpiece subdomain protein...
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Role of Hydrophobic Interactions in the EncounterComplex Formation of the Plastocyanin and Cytochrome f Complex Revealed by Paramagnetic NMR Spectroscopy
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Sandra Scanu, Johannes M. Foerster, G. Matthias Ullmann and Marcellus Ubbink
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja4015452/aop/images/medium/ja-2013-015452_0009.gif
Journal of the American Chemical Society
DOI: 10.1021/ja4015452
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA
http://feeds.feedburner.com/~r/acs/jacsat/~4/I9ARcKlvRs8
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Role of hydrophobic interactions in the encounter complex formation of plastocyanin and cytochrome f complex revealed by paramagnetic NMR spectroscopy.
Role of hydrophobic interactions in the encounter complex formation of plastocyanin and cytochrome f complex revealed by paramagnetic NMR spectroscopy.
J Am Chem Soc. 2013 Apr 29;
Authors: Scanu S, Förster J, Ullmann GM, Ubbink M
Abstract
Protein complex formation is thought to be at least a two-step process, in which the active complex is preceded by the formation of an encounter complex....
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J Biomol Struct Dyn. 1995 Apr;12(5):971-91
Authors: Efremov RG, Golovanov AP, Vergoten G, Alix AJ, Tsetlin VI, Arseniev AS
2D NMR-derived spatial structures of neurotoxin II (NtII) and several homologous toxins in solution were assessed by comparison with their own amino acid sequences using a...
Anomalous Properties of Lys Residues Buried in the Hydrophobic Interior of a Protein Revealed With 15N-Detect NMR Spectroscopy.
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