Rapid organocatalytic chirality analysis of amines, amino acids, alcohols, amino alcohols and diols with achiral iso(thio)cyanate probes

Nelson, Eryn; Formen, Jeffrey S S K; Wolf, Christian

doi:10.1039/d1sc02061g

Cited by 17 publications

(13 citation statements)

References 89 publications

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“…In accordance with our chiral amine sensing study, these additional 21 substrates were selected to encompass structures exhibiting asmall aromatic ring as well as some that are devoid of ac hromophore and therefore increasingly challenging.N evertheless,d istinct CD effects were obtained without exception just by fast mixing of the assay components and CD analysis without further delay (see SI). [19,[38][39][40][41][42][43] Scheme 1. Chiroptical redox switching using NaBH 4 and air as external stimuli.…”

Section: Methodsmentioning

confidence: 99%

Chiroptical Switching and Quantitative Chirality Sensing with (Pseudo)halogenated Quinones

Formen

Wolf

2021

Angewandte Chemie

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Pseudo)halogenated quinones react smoothly with chiral amines,amino alcohols,and amino acids toward pushpull conjugates with optical sensing and switching applications. The chiroptically active conjugates serve as redox switches between two reversibly interconverting states with remarkably different UV and CD signatures.A ddition of sodium borohydride generates ahydroquinone derivative that is quantitatively re-oxidized to the original quinone upon exposure to air.This chiroptical quinone/hydroquinone redox switch system combines several attractive features such as simple set-up,u se of inexpensive chemicals,s hort response time,a nd thermal and photochemical stability.Aconceptually new sensing approach that is based on integrated chiroptical amplification and redox switching enables on-the-fly deconvolution of otherwise overlapping CD spectra and is used for quantitative er analysis of challenging samples containing constitutional isomers in varying enantiomeric compositions.

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Section: Methodsmentioning

confidence: 99%

Chiroptical Switching and Quantitative Chirality Sensing with (Pseudo)halogenated Quinones

Formen

Wolf

2021

Angewandte Chemie

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“…Raman and surface enhanced Raman (SERS) spectroscopy proved the formation of host‐guest intermolecular complexes between propranolol enantiomers and α, β, γ CDs [147] . The alternative methods including use of chiral columns, electro migration techniques, porous organic cages, [148] chiroptical sensing with a single arylisocyanate probe [149] etc, have high equipment and running costs and other limitations to be used routinely. The final choice of method, however, would depend upon the situation, nature and chemical structure of the analyte and the ease of availability of laboratory facilities.…”

Section: Prospectivementioning

confidence: 99%

′Ab Ovo′ Chiral Phases and Chiral Reagents for Liquid Chromatographic Separation and Isolation of Enantiomers

Bhushan

2022

The Chemical Record

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The de-novo approach of mixing chirally pure reagents or Cu(II)-L-amino acid complexes in the slurry of silica gel for preparing TLC plates was reported from author's laboratory and was successful for separation and isolation of enantiomers. Using high molar absorptivity molecules, e. g., 1,5-difluoro-2,4-dinitrobenzene and cyanuric chloride, more than 38 new chiral derivatizing reagents were synthesized in our laboratory by straightforward nucleophilic substitution with simple chiral auxiliaries. Besides, (S)-naproxen, (S)-ketoprofen, and (S)-levofloxacin were used as chiral platforms. A conceptual approach using both achiral phases in chromatography for enantioseparation was also adopted. 1 H NMR and DFT based software were used to explain structures of non-covalent and covalent diastereomeric pairs and determination of configuration and separation mechanism. The methods can be easily used to determine and control enantiomeric purity with advantages over a variety of commercial chiral phases.

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“…An abnormal d -amino acid level is associated with various symptoms, such as schizophrenia and Alzheimer’s disease. − Discrimination and quantification of enantiomeric molecules is highly desirable and is a routine necessity in the field of biological processes, synthetic chemistry, and the pharmaceutical industry. Methods toward chiral analysis, including high-performance liquid chromatography, − mass spectrometry, − circular dichroism, − and fluorescence − were proposed. The optical analysis of amino acids that have low or no UV absorption generally requires chemical derivatization followed by chiral chromatography. , Fluorescence spectroscopy is a sensitive method to determine enantiomeric amino acids via coordination by a chiral host or a covalent attachment to a fluorophore, , however, the varied binding strength between different analytes with the host or the reversible process between the free host and the host–guest complex compromises the quantification of individual analytes in a mixture .…”

Section: Introductionmentioning

confidence: 99%

Simultaneous Discrimination and Quantification of Enantiomeric Amino Acids under Physiological Conditions by Chiral ¹⁹F NMR Tag

Chen

et al. 2022

Anal. Chem.

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Enantiomeric analysis is of great significance in chemistry, chemical biology and pharmaceutical research. We herein propose a chiral 19F NMR tag containing an amino reactive NHS group to discriminate the enantiomeric amino acids under physiological conditions by NMR spectroscopy. The chiral 19F NMR tag readily forms stable amide products with the amino acids in aqueous solution. The stereospecific chemistry of enantiomeric amino acids is discriminated by a stereogenic carbon bonded with a 19F atom and is therefore decoded by the 19F reporter and manifested in the distinct 19F chemical shift. The chemical shift difference (ΔΔδ) of the chiral 19F NMR tag derived enantiomeric amino acids variants has a broad chemical shift range between −1.13 to 1.68 ppm, indicating the high sensitivity of the chiral 19F NMR tag to the stereospecific environment surrounding the individual amino acids. The distinguishable chemical shift produced by the chiral 19F NMR tag permits simultaneous discrimination and quantification of the enantiomeric amino acids in a mixture. The high fidelity of the chiral 19F NMR tag affords high-accuracy determination of the enantiomeric composition of amino acids by simple 1D NMR under physiological conditions.

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Rapid organocatalytic chirality analysis of amines, amino acids, alcohols, amino alcohols and diols with achiral iso(thio)cyanate probes

Abstract: The widespread occurrence and significance of chiral compounds does not only require new methods for their enantioselective synthesis but also efficient tools that allow rapid determination of the absolute configuration,...

Cited by 17 publications

References 89 publications

Chiroptical Switching and Quantitative Chirality Sensing with (Pseudo)halogenated Quinones

Chiroptical Switching and Quantitative Chirality Sensing with (Pseudo)halogenated Quinones

′Ab Ovo′ Chiral Phases and Chiral Reagents for Liquid Chromatographic Separation and Isolation of Enantiomers

Simultaneous Discrimination and Quantification of Enantiomeric Amino Acids under Physiological Conditions by Chiral ¹⁹F NMR Tag

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Rapid organocatalytic chirality analysis of amines, amino acids, alcohols, amino alcohols and diols with achiral iso(thio)cyanate probes

Abstract: The widespread occurrence and significance of chiral compounds does not only require new methods for their enantioselective synthesis but also efficient tools that allow rapid determination of the absolute configuration,...

Cited by 17 publications

References 89 publications

Chiroptical Switching and Quantitative Chirality Sensing with (Pseudo)halogenated Quinones

Chiroptical Switching and Quantitative Chirality Sensing with (Pseudo)halogenated Quinones

′Ab Ovo′ Chiral Phases and Chiral Reagents for Liquid Chromatographic Separation and Isolation of Enantiomers

Simultaneous Discrimination and Quantification of Enantiomeric Amino Acids under Physiological Conditions by Chiral 19F NMR Tag

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Simultaneous Discrimination and Quantification of Enantiomeric Amino Acids under Physiological Conditions by Chiral ¹⁹F NMR Tag