Analysis of alkaloids in Lotus (Nelumbo nucifera Gaertn.) leaves by non-aqueous capillary electrophoresis using ultraviolet and mass spectrometric detection

•Determination of major alkaloids in Lotus leaves by NACE and CE–MS.•Fully validated and rapid separation.•Application to more than 25 samples.•Major alkaloids were (−)-nuciferine, (−)-armepavine and (+)-isoliensinine. Lotus leaves are a popular remedy in Asia to treat obesity, insomnia and mental i...

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Veröffentlicht in:	Journal of Chromatography A 2013-08, Vol.1302, p.174-180
Hauptverfasser:	Do, Tho Chau Minh Vinh, Nguyen, Tuan Duc, Tran, Hung, Stuppner, Hermann, Ganzera, Markus
Format:	Artikel
Sprache:	eng
Schlagworte:	acetic acid acetonitrile Alkaloid Alkaloids Alkaloids - chemistry ammonium acetate Biological and medical sciences Capillary electrophoresis CE–MS chromatography Electric potential Electrophoresis Electrophoresis, Capillary - methods General pharmacology Impairment leaves Lotus mass spectrometry Mass Spectrometry - methods Medical sciences methanol Methyl alcohol NACE Nelumbo - chemistry Nelumbo nucifera obesity Pharmacognosy. Homeopathy. Health food Pharmacology. Drug treatments Remedies Sheaths sleep disorders temperature Ultraviolet wavelengths
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creator	Do, Tho Chau Minh Vinh Nguyen, Tuan Duc Tran, Hung Stuppner, Hermann Ganzera, Markus
description	•Determination of major alkaloids in Lotus leaves by NACE and CE–MS.•Fully validated and rapid separation.•Application to more than 25 samples.•Major alkaloids were (−)-nuciferine, (−)-armepavine and (+)-isoliensinine. Lotus leaves are a popular remedy in Asia to treat obesity, insomnia and mental impairment; alkaloids are considered most relevant for bioactivity. In this study the first CE method for the determination of all major alkaloids ((−)-nuciferine, (−)-nornuciferine, (−)-caaverine, (−)-armepavine, (+)-norarmepavine, (+)-isoliensinine and (+)-pronuciferine) in Nelumbo nucifera leaves was developed. The optimum buffer showed to be a solution of 100mM ammonium acetate in a mixture of methanol, acetonitrile and water, also containing 0.6% acid acetic. Applied voltage, temperature and detection wavelength were 25kV, 30°C and 225nm; the required analysis time was 15min. By CE–MS all standard compounds could be assigned in positive ESI mode, and two minor alkaloids were tentatively identified (n-nornuciferine and roemerine). A mixture of water, methanol and acetic acid served as sheath liquid in these experiments. The NACE assay was fully validated and utilized to analyze Lotus leaf samples collected in different parts of Vietnam. Respective results revealed significant qualitative and quantitative differences depending on growing area and season. Yet, in all samples (−)-nuciferine (0.34–0.63%), (−)-armepavine (0.13–0.20%), and (+)-isoliensinine (0.06–0.19%) were the most dominant alkaloids. The total alkaloid content varied from 0.72 to 1.41%.
doi_str_mv	10.1016/j.chroma.2013.06.002
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Lotus leaves are a popular remedy in Asia to treat obesity, insomnia and mental impairment; alkaloids are considered most relevant for bioactivity. In this study the first CE method for the determination of all major alkaloids ((−)-nuciferine, (−)-nornuciferine, (−)-caaverine, (−)-armepavine, (+)-norarmepavine, (+)-isoliensinine and (+)-pronuciferine) in Nelumbo nucifera leaves was developed. The optimum buffer showed to be a solution of 100mM ammonium acetate in a mixture of methanol, acetonitrile and water, also containing 0.6% acid acetic. Applied voltage, temperature and detection wavelength were 25kV, 30°C and 225nm; the required analysis time was 15min. By CE–MS all standard compounds could be assigned in positive ESI mode, and two minor alkaloids were tentatively identified (n-nornuciferine and roemerine). A mixture of water, methanol and acetic acid served as sheath liquid in these experiments. The NACE assay was fully validated and utilized to analyze Lotus leaf samples collected in different parts of Vietnam. Respective results revealed significant qualitative and quantitative differences depending on growing area and season. Yet, in all samples (−)-nuciferine (0.34–0.63%), (−)-armepavine (0.13–0.20%), and (+)-isoliensinine (0.06–0.19%) were the most dominant alkaloids. 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Lotus leaves are a popular remedy in Asia to treat obesity, insomnia and mental impairment; alkaloids are considered most relevant for bioactivity. In this study the first CE method for the determination of all major alkaloids ((−)-nuciferine, (−)-nornuciferine, (−)-caaverine, (−)-armepavine, (+)-norarmepavine, (+)-isoliensinine and (+)-pronuciferine) in Nelumbo nucifera leaves was developed. The optimum buffer showed to be a solution of 100mM ammonium acetate in a mixture of methanol, acetonitrile and water, also containing 0.6% acid acetic. Applied voltage, temperature and detection wavelength were 25kV, 30°C and 225nm; the required analysis time was 15min. By CE–MS all standard compounds could be assigned in positive ESI mode, and two minor alkaloids were tentatively identified (n-nornuciferine and roemerine). A mixture of water, methanol and acetic acid served as sheath liquid in these experiments. The NACE assay was fully validated and utilized to analyze Lotus leaf samples collected in different parts of Vietnam. Respective results revealed significant qualitative and quantitative differences depending on growing area and season. Yet, in all samples (−)-nuciferine (0.34–0.63%), (−)-armepavine (0.13–0.20%), and (+)-isoliensinine (0.06–0.19%) were the most dominant alkaloids. 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Lotus leaves are a popular remedy in Asia to treat obesity, insomnia and mental impairment; alkaloids are considered most relevant for bioactivity. In this study the first CE method for the determination of all major alkaloids ((−)-nuciferine, (−)-nornuciferine, (−)-caaverine, (−)-armepavine, (+)-norarmepavine, (+)-isoliensinine and (+)-pronuciferine) in Nelumbo nucifera leaves was developed. The optimum buffer showed to be a solution of 100mM ammonium acetate in a mixture of methanol, acetonitrile and water, also containing 0.6% acid acetic. Applied voltage, temperature and detection wavelength were 25kV, 30°C and 225nm; the required analysis time was 15min. By CE–MS all standard compounds could be assigned in positive ESI mode, and two minor alkaloids were tentatively identified (n-nornuciferine and roemerine). A mixture of water, methanol and acetic acid served as sheath liquid in these experiments. The NACE assay was fully validated and utilized to analyze Lotus leaf samples collected in different parts of Vietnam. Respective results revealed significant qualitative and quantitative differences depending on growing area and season. Yet, in all samples (−)-nuciferine (0.34–0.63%), (−)-armepavine (0.13–0.20%), and (+)-isoliensinine (0.06–0.19%) were the most dominant alkaloids. The total alkaloid content varied from 0.72 to 1.41%.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><pmid>23838305</pmid><doi>10.1016/j.chroma.2013.06.002</doi><tpages>7</tpages></addata></record>
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subjects	acetic acid acetonitrile Alkaloid Alkaloids Alkaloids - chemistry ammonium acetate Biological and medical sciences Capillary electrophoresis CE–MS chromatography Electric potential Electrophoresis Electrophoresis, Capillary - methods General pharmacology Impairment leaves Lotus mass spectrometry Mass Spectrometry - methods Medical sciences methanol Methyl alcohol NACE Nelumbo - chemistry Nelumbo nucifera obesity Pharmacognosy. Homeopathy. Health food Pharmacology. Drug treatments Remedies Sheaths sleep disorders temperature Ultraviolet wavelengths
title	Analysis of alkaloids in Lotus (Nelumbo nucifera Gaertn.) leaves by non-aqueous capillary electrophoresis using ultraviolet and mass spectrometric detection
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