NMR structure determination and investigation using a reduced proton (REDPRO) labeling strategy for proteins

Alexander Shekhtman; Ranajeet Ghose; Michael Goger; David Cowburn

doi:10.1016/S0014-5793(02)03051-X

NMR structure determination and investigation using a reduced proton (REDPRO) labeling strategy for proteins

Alexander Shekhtman
, Ranajeet Ghose
, Michael Goger
, David Cowburn

Chemistry

University at Albany

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

43 Scopus citations

Abstract

We present here a stable isotope labeling technique for proteins, which seeks the appropriate compromise between the advantages of (a) random isotope labeling, with its large number of protons available for structure determination, and (b) selective labeling to generate isolated proton spins decreasing spectral complexity and improving relaxation properties of NMR experiments. The described reduced proton (REDPRO) procedure results in side-chain specific protonation of overexpressed proteins, which is highly selective. The REDPRO labeling scheme provides a sufficient number of NOE constraints for structure calculation. Dramatically improved relaxation properties of the heteronuclear magnetization transfer coupled with TROSY advantages make the proposed labeling scheme an attractive approach for study of high molecular weight protein targets, their ligand sites, and interdomain interactions.

Original language	English
Pages (from-to)	177-182
Number of pages	6
Journal	FEBS Letters
Volume	524
Issue number	1-3
DOIs	https://doi.org/10.1016/S0014-5793(02)03051-X
State	Published - Jul 31 2002

Keywords

Nuclear magnetic resonance relaxation
Solution structure determination
Stable isotope labeling

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10.1016/S0014-5793(02)03051-X

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title = "NMR structure determination and investigation using a reduced proton (REDPRO) labeling strategy for proteins",

abstract = "We present here a stable isotope labeling technique for proteins, which seeks the appropriate compromise between the advantages of (a) random isotope labeling, with its large number of protons available for structure determination, and (b) selective labeling to generate isolated proton spins decreasing spectral complexity and improving relaxation properties of NMR experiments. The described reduced proton (REDPRO) procedure results in side-chain specific protonation of overexpressed proteins, which is highly selective. The REDPRO labeling scheme provides a sufficient number of NOE constraints for structure calculation. Dramatically improved relaxation properties of the heteronuclear magnetization transfer coupled with TROSY advantages make the proposed labeling scheme an attractive approach for study of high molecular weight protein targets, their ligand sites, and interdomain interactions.",

keywords = "Nuclear magnetic resonance relaxation, Solution structure determination, Stable isotope labeling",

author = "Alexander Shekhtman and Ranajeet Ghose and Michael Goger and David Cowburn",

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T1 - NMR structure determination and investigation using a reduced proton (REDPRO) labeling strategy for proteins

AU - Shekhtman, Alexander

AU - Ghose, Ranajeet

AU - Goger, Michael

AU - Cowburn, David

PY - 2002/7/31

Y1 - 2002/7/31

N2 - We present here a stable isotope labeling technique for proteins, which seeks the appropriate compromise between the advantages of (a) random isotope labeling, with its large number of protons available for structure determination, and (b) selective labeling to generate isolated proton spins decreasing spectral complexity and improving relaxation properties of NMR experiments. The described reduced proton (REDPRO) procedure results in side-chain specific protonation of overexpressed proteins, which is highly selective. The REDPRO labeling scheme provides a sufficient number of NOE constraints for structure calculation. Dramatically improved relaxation properties of the heteronuclear magnetization transfer coupled with TROSY advantages make the proposed labeling scheme an attractive approach for study of high molecular weight protein targets, their ligand sites, and interdomain interactions.

AB - We present here a stable isotope labeling technique for proteins, which seeks the appropriate compromise between the advantages of (a) random isotope labeling, with its large number of protons available for structure determination, and (b) selective labeling to generate isolated proton spins decreasing spectral complexity and improving relaxation properties of NMR experiments. The described reduced proton (REDPRO) procedure results in side-chain specific protonation of overexpressed proteins, which is highly selective. The REDPRO labeling scheme provides a sufficient number of NOE constraints for structure calculation. Dramatically improved relaxation properties of the heteronuclear magnetization transfer coupled with TROSY advantages make the proposed labeling scheme an attractive approach for study of high molecular weight protein targets, their ligand sites, and interdomain interactions.

KW - Nuclear magnetic resonance relaxation

KW - Solution structure determination

KW - Stable isotope labeling

UR - https://www.scopus.com/pages/publications/0037205766

U2 - 10.1016/S0014-5793(02)03051-X

DO - 10.1016/S0014-5793(02)03051-X

M3 - Article

C2 - 12135763

SN - 0014-5793

VL - 524

SP - 177

EP - 182

JO - FEBS Letters

JF - FEBS Letters

IS - 1-3

ER -

NMR structure determination and investigation using a reduced proton (REDPRO) labeling strategy for proteins

Abstract

Keywords

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