A quantitative basis for a scale of Na+ affinities of organic and small biological molecules in the gas phase

S. Hoyau; K. Norrman; T. B. McMahon; G. Ohanessian

doi:10.1021/ja9841198

A quantitative basis for a scale of Na⁺ affinities of organic and small biological molecules in the gas phase

S. Hoyau, K. Norrman, T. B. McMahon, G. Ohanessian

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

Abstract

High-pressure mass spectrometric experiments and ab initio calculations have been carried out in order to establish a series of accurate gas-phase sodium ion affinities of organic molecules with a wide variety of functional groups. Ab initio calculations have also been performed on the sodium complexes of three amino acids: serine, cysteine, and proline. A systematic critical evaluation of experimental and computational literature results shows that a significant number require revision. Based on comparisons with accurate experimental measurements, the ab initio procedure used is shown to yield sodium ion affinities with an accuracy of ca. 1 kcal · mol^-1. This enables the construction of the first reliable table of gas-phase Na⁺ affinities for organic and small biological molecules.

Original language	English
Pages (from-to)	8864-8875
Number of pages	12
Journal	Journal of the American Chemical Society
Volume	121
Issue number	38
DOIs	https://doi.org/10.1021/ja9841198
Publication status	Published - 29 Sept 1999
Externally published	Yes

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10.1021/ja9841198

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title = "A quantitative basis for a scale of Na+ affinities of organic and small biological molecules in the gas phase",

abstract = "High-pressure mass spectrometric experiments and ab initio calculations have been carried out in order to establish a series of accurate gas-phase sodium ion affinities of organic molecules with a wide variety of functional groups. Ab initio calculations have also been performed on the sodium complexes of three amino acids: serine, cysteine, and proline. A systematic critical evaluation of experimental and computational literature results shows that a significant number require revision. Based on comparisons with accurate experimental measurements, the ab initio procedure used is shown to yield sodium ion affinities with an accuracy of ca. 1 kcal · mol-1. This enables the construction of the first reliable table of gas-phase Na+ affinities for organic and small biological molecules.",

author = "S. Hoyau and K. Norrman and McMahon, \{T. B.\} and G. Ohanessian",

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T1 - A quantitative basis for a scale of Na+ affinities of organic and small biological molecules in the gas phase

AU - Hoyau, S.

AU - Norrman, K.

AU - McMahon, T. B.

AU - Ohanessian, G.

PY - 1999/9/29

Y1 - 1999/9/29

N2 - High-pressure mass spectrometric experiments and ab initio calculations have been carried out in order to establish a series of accurate gas-phase sodium ion affinities of organic molecules with a wide variety of functional groups. Ab initio calculations have also been performed on the sodium complexes of three amino acids: serine, cysteine, and proline. A systematic critical evaluation of experimental and computational literature results shows that a significant number require revision. Based on comparisons with accurate experimental measurements, the ab initio procedure used is shown to yield sodium ion affinities with an accuracy of ca. 1 kcal · mol-1. This enables the construction of the first reliable table of gas-phase Na+ affinities for organic and small biological molecules.

AB - High-pressure mass spectrometric experiments and ab initio calculations have been carried out in order to establish a series of accurate gas-phase sodium ion affinities of organic molecules with a wide variety of functional groups. Ab initio calculations have also been performed on the sodium complexes of three amino acids: serine, cysteine, and proline. A systematic critical evaluation of experimental and computational literature results shows that a significant number require revision. Based on comparisons with accurate experimental measurements, the ab initio procedure used is shown to yield sodium ion affinities with an accuracy of ca. 1 kcal · mol-1. This enables the construction of the first reliable table of gas-phase Na+ affinities for organic and small biological molecules.

U2 - 10.1021/ja9841198

DO - 10.1021/ja9841198

M3 - Article

AN - SCOPUS:0033615289

SN - 0002-7863

VL - 121

SP - 8864

EP - 8875

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 38

ER -

A quantitative basis for a scale of Na+ affinities of organic and small biological molecules in the gas phase

Abstract

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A quantitative basis for a scale of Na⁺ affinities of organic and small biological molecules in the gas phase