NMR detection of side chain-side chain hydrogen bonding interactions in 13C/15N-labeled proteins

A. Liu; W. Hu; A. Majumdar; M. K. Rosen; D. J. Patel

doi:10.1023/A:1008390813387

NMR detection of side chain-side chain hydrogen bonding interactions in ¹³C/¹⁵N-labeled proteins

A. Liu, W. Hu, A. Majumdar, M. K. Rosen, D. J. Patel

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

We describe the direct observation of side chain-side chain hydrogen bonding interactions in proteins with sensitivity-enhanced NMR spectroscopy. Specifically, the remote correlation between the guanidinium nitrogen ₁₅N(ε) of arginine 71, which serves as the hydrogen donor, and the acceptor carboxylate carbon ¹³CO₂(γ) of aspartate 100 in a 12 kDa protein, human FKBP12, is detected via the trans-hydrogen bond (3h)J(NεCO2γ) coupling by employing a novel HNCO-type experiment, soft CPD-HNCO. The (3h)J(NεCO2γ) coupling constant appears to be even smaller than the average value of backbone (3h)J(NC') couplings, consistent with more extensive local dynamics in protein side chains. The identification of trans-hydrogen bond J-couplings between protein side chains should provide useful markers for monitoring hydrogen bonding interactions that contribute to the stability of protein folds, to alignments within enzyme active sites and to recognition events at macromolecular interfaces.

Original language	English (US)
Pages (from-to)	305-310
Number of pages	6
Journal	Journal of biomolecular NMR
Volume	17
Issue number	4
DOIs	https://doi.org/10.1023/A:1008390813387
State	Published - 2000

Keywords

FKBP12
NMR detection
Sensitivity enhancement
Side chain-side chain hydrogen bonds

ASJC Scopus subject areas

Biochemistry
Spectroscopy

Access to Document

10.1023/A:1008390813387

Cite this

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title = "NMR detection of side chain-side chain hydrogen bonding interactions in 13C/15N-labeled proteins",

abstract = "We describe the direct observation of side chain-side chain hydrogen bonding interactions in proteins with sensitivity-enhanced NMR spectroscopy. Specifically, the remote correlation between the guanidinium nitrogen 15N(ε) of arginine 71, which serves as the hydrogen donor, and the acceptor carboxylate carbon 13CO2(γ) of aspartate 100 in a 12 kDa protein, human FKBP12, is detected via the trans-hydrogen bond (3h)J(NεCO2γ) coupling by employing a novel HNCO-type experiment, soft CPD-HNCO. The (3h)J(NεCO2γ) coupling constant appears to be even smaller than the average value of backbone (3h)J(NC') couplings, consistent with more extensive local dynamics in protein side chains. The identification of trans-hydrogen bond J-couplings between protein side chains should provide useful markers for monitoring hydrogen bonding interactions that contribute to the stability of protein folds, to alignments within enzyme active sites and to recognition events at macromolecular interfaces.",

keywords = "FKBP12, NMR detection, Sensitivity enhancement, Side chain-side chain hydrogen bonds",

author = "A. Liu and W. Hu and A. Majumdar and Rosen, {M. K.} and Patel, {D. J.}",

year = "2000",

doi = "10.1023/A:1008390813387",

language = "English (US)",

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journal = "Journal of Biomolecular NMR",

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TY - JOUR

T1 - NMR detection of side chain-side chain hydrogen bonding interactions in 13C/15N-labeled proteins

AU - Liu, A.

AU - Hu, W.

AU - Majumdar, A.

AU - Rosen, M. K.

AU - Patel, D. J.

PY - 2000

Y1 - 2000

N2 - We describe the direct observation of side chain-side chain hydrogen bonding interactions in proteins with sensitivity-enhanced NMR spectroscopy. Specifically, the remote correlation between the guanidinium nitrogen 15N(ε) of arginine 71, which serves as the hydrogen donor, and the acceptor carboxylate carbon 13CO2(γ) of aspartate 100 in a 12 kDa protein, human FKBP12, is detected via the trans-hydrogen bond (3h)J(NεCO2γ) coupling by employing a novel HNCO-type experiment, soft CPD-HNCO. The (3h)J(NεCO2γ) coupling constant appears to be even smaller than the average value of backbone (3h)J(NC') couplings, consistent with more extensive local dynamics in protein side chains. The identification of trans-hydrogen bond J-couplings between protein side chains should provide useful markers for monitoring hydrogen bonding interactions that contribute to the stability of protein folds, to alignments within enzyme active sites and to recognition events at macromolecular interfaces.

AB - We describe the direct observation of side chain-side chain hydrogen bonding interactions in proteins with sensitivity-enhanced NMR spectroscopy. Specifically, the remote correlation between the guanidinium nitrogen 15N(ε) of arginine 71, which serves as the hydrogen donor, and the acceptor carboxylate carbon 13CO2(γ) of aspartate 100 in a 12 kDa protein, human FKBP12, is detected via the trans-hydrogen bond (3h)J(NεCO2γ) coupling by employing a novel HNCO-type experiment, soft CPD-HNCO. The (3h)J(NεCO2γ) coupling constant appears to be even smaller than the average value of backbone (3h)J(NC') couplings, consistent with more extensive local dynamics in protein side chains. The identification of trans-hydrogen bond J-couplings between protein side chains should provide useful markers for monitoring hydrogen bonding interactions that contribute to the stability of protein folds, to alignments within enzyme active sites and to recognition events at macromolecular interfaces.

KW - FKBP12

KW - NMR detection

KW - Sensitivity enhancement

KW - Side chain-side chain hydrogen bonds

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