Effect of substituents on the reactivity of ninhydrin with urea

Jacobus A.W. Jong; Marc Etienne Moret; Marianne C Verhaar; Wim E. Hennink; Karin G.F. Gerritsen; Cornelus F. Van Nostrum

doi:10.1002/slct.201800040

Effect of substituents on the reactivity of ninhydrin with urea

Jacobus A.W. Jong^*, Marc Etienne Moret, Marianne C Verhaar, Wim E. Hennink, Karin G.F. Gerritsen, Cornelus F. Van Nostrum

^*Corresponding author for this work

Department of Nephrology and Hypertension

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

Abstract

Ninhydrin, i. e. the stable hydrate of the reactive species indanetrione, is a well-known compound used for the quantification of ammonia and amino acids. However, substituent effects on the reactivity of ninhydrin with nucleophiles are not described. In this work, the kinetics of the reaction of C4-and C5-substituted ninhydrins with urea was studied and monitored by ¹³C-NMR. Surprisingly, the obtained results show that electron donating groups (EDGs) as well as electron withdrawing groups (EWGs) decrease the rate of the reaction. EDGs decrease the electrophilicity of indanetrione, resulting in slower overall kinetics than unsubstituted ninhydrin. The calculated Gibbs free energy differences for the dehydration of unsubstituted and substituted ninhydrins and the subsequent reaction with urea showed that the dehydration of the compounds is more sensitive to electronic effects than the subsequent reaction with urea. Therefore, although EWGs increase the electrophilicity of indanetrione, this is more than counterbalanced by an adverse shift of the hydration equilibrium towards the unreactive hydrate (i. e. ninhydrin), resulting in slower kinetics as well.

Original language	English
Pages (from-to)	1224-1229
Number of pages	6
Journal	ChemistrySelect
Volume	3
Issue number	4
DOIs	https://doi.org/10.1002/slct.201800040
Publication status	Published - 1 Jan 2018

Funding

The authors like to thank Adèle Dijk (UMC Utrecht, NL) for performing the urea concentration determination by the urease assay and Johan Kemmink (Utrecht University, NL) for his contribution to the quantitative 13C-NMR method. This research was supported by the Dutch organization for Scientific Research (NWO-TTW, project 14433) and the Dutch Kidney Foundation. MEM acknowledges the Sectorplan Natuur-en Scheikunde (Tenure-track grant at Utrecht University) for financial support.

Keywords

Computational chemistry
Ninhydrin
Quantitative 13C-NMR
Substituent effects
Urea

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Jong_et_al-2018-ChemistrySelectFinal published version, 891 KBLicence: Taverne

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title = "Effect of substituents on the reactivity of ninhydrin with urea",

abstract = "Ninhydrin, i. e. the stable hydrate of the reactive species indanetrione, is a well-known compound used for the quantification of ammonia and amino acids. However, substituent effects on the reactivity of ninhydrin with nucleophiles are not described. In this work, the kinetics of the reaction of C4-and C5-substituted ninhydrins with urea was studied and monitored by 13C-NMR. Surprisingly, the obtained results show that electron donating groups (EDGs) as well as electron withdrawing groups (EWGs) decrease the rate of the reaction. EDGs decrease the electrophilicity of indanetrione, resulting in slower overall kinetics than unsubstituted ninhydrin. The calculated Gibbs free energy differences for the dehydration of unsubstituted and substituted ninhydrins and the subsequent reaction with urea showed that the dehydration of the compounds is more sensitive to electronic effects than the subsequent reaction with urea. Therefore, although EWGs increase the electrophilicity of indanetrione, this is more than counterbalanced by an adverse shift of the hydration equilibrium towards the unreactive hydrate (i. e. ninhydrin), resulting in slower kinetics as well.",

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AU - Jong, Jacobus A.W.

AU - Moret, Marc Etienne

AU - Verhaar, Marianne C

AU - Hennink, Wim E.

AU - Gerritsen, Karin G.F.

AU - Van Nostrum, Cornelus F.

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N2 - Ninhydrin, i. e. the stable hydrate of the reactive species indanetrione, is a well-known compound used for the quantification of ammonia and amino acids. However, substituent effects on the reactivity of ninhydrin with nucleophiles are not described. In this work, the kinetics of the reaction of C4-and C5-substituted ninhydrins with urea was studied and monitored by 13C-NMR. Surprisingly, the obtained results show that electron donating groups (EDGs) as well as electron withdrawing groups (EWGs) decrease the rate of the reaction. EDGs decrease the electrophilicity of indanetrione, resulting in slower overall kinetics than unsubstituted ninhydrin. The calculated Gibbs free energy differences for the dehydration of unsubstituted and substituted ninhydrins and the subsequent reaction with urea showed that the dehydration of the compounds is more sensitive to electronic effects than the subsequent reaction with urea. Therefore, although EWGs increase the electrophilicity of indanetrione, this is more than counterbalanced by an adverse shift of the hydration equilibrium towards the unreactive hydrate (i. e. ninhydrin), resulting in slower kinetics as well.

AB - Ninhydrin, i. e. the stable hydrate of the reactive species indanetrione, is a well-known compound used for the quantification of ammonia and amino acids. However, substituent effects on the reactivity of ninhydrin with nucleophiles are not described. In this work, the kinetics of the reaction of C4-and C5-substituted ninhydrins with urea was studied and monitored by 13C-NMR. Surprisingly, the obtained results show that electron donating groups (EDGs) as well as electron withdrawing groups (EWGs) decrease the rate of the reaction. EDGs decrease the electrophilicity of indanetrione, resulting in slower overall kinetics than unsubstituted ninhydrin. The calculated Gibbs free energy differences for the dehydration of unsubstituted and substituted ninhydrins and the subsequent reaction with urea showed that the dehydration of the compounds is more sensitive to electronic effects than the subsequent reaction with urea. Therefore, although EWGs increase the electrophilicity of indanetrione, this is more than counterbalanced by an adverse shift of the hydration equilibrium towards the unreactive hydrate (i. e. ninhydrin), resulting in slower kinetics as well.

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Effect of substituents on the reactivity of ninhydrin with urea

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