Efficient measurement of the sign and the magnitude of long-range proton-carbon coupling constants from a spin-state-selective HSQMBC-COSY experiment

Josep Saurí; Teodor Parella

doi:10.1002/mrc.3867

Efficient measurement of the sign and the magnitude of long-range proton-carbon coupling constants from a spin-state-selective HSQMBC-COSY experiment

Josep Saurí
, Teodor Parella^*

^*Corresponding author for this work

Research output: Indexed journal article › Article › peer-review

17 Citations (Scopus)

Abstract

A spin state-selective Heteronuclear Single-Quantum Multiple-Bond Connectivities (HSQMBC-COSY) experiment is proposed to measure the sign and the magnitude of long-range proton-carbon coupling constants (ⁿJ(CH); n > 1) either for protonated or for non-protonated carbons in small molecules. The simple substitution of the selective 180° ¹H pulse in the original selHSQMBC pulse scheme by a hard one allows the simultaneous evolution of both proton-proton and proton-carbon coupling constants during the refocusing period and enables a final COSY transfer between coupled protons. The successful implementation of the IPAP principle leads to separate mixed-phase α/β cross-peaks from which ⁿJ(CH) values can be easily measured by analyzing their relative frequency displacements in the detected dimension.

Original language	English
Pages (from-to)	717-721
Number of pages	5
Journal	Magnetic Resonance in Chemistry
Volume	50
Issue number	11
DOIs	https://doi.org/10.1002/mrc.3867
Publication status	Published - Nov 2012
Externally published	Yes

Keywords

HSQMBC
HSQMBC-COSY
IPAP
long-range proton-carbon coupling constants

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10.1002/mrc.3867

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title = "Efficient measurement of the sign and the magnitude of long-range proton-carbon coupling constants from a spin-state-selective HSQMBC-COSY experiment",

abstract = "A spin state-selective Heteronuclear Single-Quantum Multiple-Bond Connectivities (HSQMBC-COSY) experiment is proposed to measure the sign and the magnitude of long-range proton-carbon coupling constants (nJ(CH); n > 1) either for protonated or for non-protonated carbons in small molecules. The simple substitution of the selective 180° 1H pulse in the original selHSQMBC pulse scheme by a hard one allows the simultaneous evolution of both proton-proton and proton-carbon coupling constants during the refocusing period and enables a final COSY transfer between coupled protons. The successful implementation of the IPAP principle leads to separate mixed-phase α/β cross-peaks from which nJ(CH) values can be easily measured by analyzing their relative frequency displacements in the detected dimension.",

keywords = "HSQMBC, HSQMBC-COSY, IPAP, long-range proton-carbon coupling constants",

author = "Josep Saur{\'i} and Teodor Parella",

year = "2012",

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doi = "10.1002/mrc.3867",

language = "English",

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T1 - Efficient measurement of the sign and the magnitude of long-range proton-carbon coupling constants from a spin-state-selective HSQMBC-COSY experiment

AU - Saurí, Josep

AU - Parella, Teodor

PY - 2012/11

Y1 - 2012/11

N2 - A spin state-selective Heteronuclear Single-Quantum Multiple-Bond Connectivities (HSQMBC-COSY) experiment is proposed to measure the sign and the magnitude of long-range proton-carbon coupling constants (nJ(CH); n > 1) either for protonated or for non-protonated carbons in small molecules. The simple substitution of the selective 180° 1H pulse in the original selHSQMBC pulse scheme by a hard one allows the simultaneous evolution of both proton-proton and proton-carbon coupling constants during the refocusing period and enables a final COSY transfer between coupled protons. The successful implementation of the IPAP principle leads to separate mixed-phase α/β cross-peaks from which nJ(CH) values can be easily measured by analyzing their relative frequency displacements in the detected dimension.

AB - A spin state-selective Heteronuclear Single-Quantum Multiple-Bond Connectivities (HSQMBC-COSY) experiment is proposed to measure the sign and the magnitude of long-range proton-carbon coupling constants (nJ(CH); n > 1) either for protonated or for non-protonated carbons in small molecules. The simple substitution of the selective 180° 1H pulse in the original selHSQMBC pulse scheme by a hard one allows the simultaneous evolution of both proton-proton and proton-carbon coupling constants during the refocusing period and enables a final COSY transfer between coupled protons. The successful implementation of the IPAP principle leads to separate mixed-phase α/β cross-peaks from which nJ(CH) values can be easily measured by analyzing their relative frequency displacements in the detected dimension.

KW - HSQMBC

KW - HSQMBC-COSY

KW - IPAP

KW - long-range proton-carbon coupling constants

UR - https://www.scopus.com/pages/publications/84867563481

U2 - 10.1002/mrc.3867

DO - 10.1002/mrc.3867

M3 - Article

C2 - 22949157

AN - SCOPUS:84867563481

SN - 0749-1581

VL - 50

SP - 717

EP - 721

JO - Magnetic Resonance in Chemistry

JF - Magnetic Resonance in Chemistry

IS - 11

ER -

Efficient measurement of the sign and the magnitude of long-range proton-carbon coupling constants from a spin-state-selective HSQMBC-COSY experiment

Abstract

Keywords

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