Two unusual conjugated fatty acids, parinaric acid and α-eleostearic acid, are present in several Impatiens species, but not in congener Hydrocera triflora

Parinaric and α-eleostearic acids are unusual conjugated fatty acids. Unusual fatty acids, in general, are known to have roles in defense response; however, the role of parinaric acid in I. balsamina is not known, nor is it known whether it occurs in different species of Impatiens or its closest mon...

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Published in	Physiology and molecular biology of plants Vol. 28; no. 5; pp. 1109 - 1118
Main Authors	Puri, Renu, Choudhary, Ashish Kumar, Barman, Paramananda, Mishra, Girish, Geeta, R.
Format	Journal Article
Language	English
Published	New Delhi Springer India 01.05.2022 Springer Nature B.V
Subjects	Biological and Medical Physics Biomedical and Life Sciences Biophysics Cell Biology Cluster analysis Congeners Eleostearic acid Fatty acid composition Fatty acids Gas chromatography Hygrophila triflora Impatiens Industrial applications Life Sciences Mass spectrometry Mass spectroscopy Plant Physiology Plant Sciences Principal components analysis Research Article Species Variation Parinaric acid Unusual conjugated fatty acids Chemotaxonomic marker Balsaminaceae α-Eleostearic acid Impatiens Hydrocera triflora
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Abstract	Parinaric and α-eleostearic acids are unusual conjugated fatty acids. Unusual fatty acids, in general, are known to have roles in defense response; however, the role of parinaric acid in I. balsamina is not known, nor is it known whether it occurs in different species of Impatiens or its closest monotypic relative, Hydrocera triflora (L.) Wight & Arn. The aim of the study was to (a) characterize the fatty acid composition of 21 species of Impatiens and H. triflora and (b) determine whether parinaric and α-eleostearic acids are present in these taxa and, if so, (c) whether there is interspecific and intraspecific variation in parinaric acid content. Fatty acid profiling was done using gas chromatography and mass spectrometry (GC–MS). To uncover taxonomic patterns of variation in fatty acids, principal component analysis and hierarchical cluster analysis were performed. The major fatty acids in Impatiens were found to be palmitic (5.57–20.85%), stearic (2.86–21.61%), oleic (2.79–28.99%), linoleic (C18:2Δ 9,12 , 2.04–26.64%), α-linolenic (C18:3∆ 9,12,15 ; 11.07–53.99%), and four forms of parinaric acid (5.93–70.21%). Genus Impatiens contains two unusual conjugated fatty acids- parinaric and α-eleostearic, however these are absent in closely related H. triflora. This study reports the presence of four different forms of parinaric acid in Impatiens for the first time. Some species ( I. mengtszeana , I. racemulosa and I. oppositifolia ) were found to contain very high levels (> 50%) of parinaric acid and they might be useful for various biomedical and industrial applications. Apparently, the presence of parinaric acid is a characteristic of Impatiens. Significant variations were found in the amount and forms of parinaric acid. We propose the potential application of parinaric acid and α-eleostearic acid as chemotaxonomic markers for Impatiens.
AbstractList	Parinaric and α-eleostearic acids are unusual conjugated fatty acids. Unusual fatty acids, in general, are known to have roles in defense response; however, the role of parinaric acid in I. balsamina is not known, nor is it known whether it occurs in different species of Impatiens or its closest monotypic relative, Hydrocera triflora (L.) Wight & Arn. The aim of the study was to (a) characterize the fatty acid composition of 21 species of Impatiens and H. triflora and (b) determine whether parinaric and α-eleostearic acids are present in these taxa and, if so, (c) whether there is interspecific and intraspecific variation in parinaric acid content. Fatty acid profiling was done using gas chromatography and mass spectrometry (GC–MS). To uncover taxonomic patterns of variation in fatty acids, principal component analysis and hierarchical cluster analysis were performed. The major fatty acids in Impatiens were found to be palmitic (5.57–20.85%), stearic (2.86–21.61%), oleic (2.79–28.99%), linoleic (C18:2Δ9,12, 2.04–26.64%), α-linolenic (C18:3∆9,12,15; 11.07–53.99%), and four forms of parinaric acid (5.93–70.21%). Genus Impatiens contains two unusual conjugated fatty acids- parinaric and α-eleostearic, however these are absent in closely related H. triflora. This study reports the presence of four different forms of parinaric acid in Impatiens for the first time. Some species (I. mengtszeana, I. racemulosa and I. oppositifolia) were found to contain very high levels (> 50%) of parinaric acid and they might be useful for various biomedical and industrial applications. Apparently, the presence of parinaric acid is a characteristic of Impatiens. Significant variations were found in the amount and forms of parinaric acid. We propose the potential application of parinaric acid and α-eleostearic acid as chemotaxonomic markers for Impatiens. Parinaric and α-eleostearic acids are unusual conjugated fatty acids. Unusual fatty acids, in general, are known to have roles in defense response; however, the role of parinaric acid in is not known, nor is it known whether it occurs in different species of or its closest monotypic relative, (L.) Wight & Arn. The aim of the study was to (a) characterize the fatty acid composition of 21 species of and and (b) determine whether parinaric and α-eleostearic acids are present in these taxa and, if so, (c) whether there is interspecific and intraspecific variation in parinaric acid content. Fatty acid profiling was done using gas chromatography and mass spectrometry (GC-MS). To uncover taxonomic patterns of variation in fatty acids, principal component analysis and hierarchical cluster analysis were performed. The major fatty acids in were found to be palmitic (5.57-20.85%), stearic (2.86-21.61%), oleic (2.79-28.99%), linoleic (C18:2Δ , 2.04-26.64%), α-linolenic (C18:3∆ ; 11.07-53.99%), and four forms of parinaric acid (5.93-70.21%). Genus contains two unusual conjugated fatty acids- parinaric and α-eleostearic, however these are absent in closely related This study reports the presence of four different forms of parinaric acid in for the first time. Some species ( , and ) were found to contain very high levels (> 50%) of parinaric acid and they might be useful for various biomedical and industrial applications. Apparently, the presence of parinaric acid is a characteristic of Significant variations were found in the amount and forms of parinaric acid. We propose the potential application of parinaric acid and α-eleostearic acid as chemotaxonomic markers for The online version contains supplementary material available at 10.1007/s12298-022-01194-4. Parinaric and α-eleostearic acids are unusual conjugated fatty acids. Unusual fatty acids, in general, are known to have roles in defense response; however, the role of parinaric acid in I. balsamina is not known, nor is it known whether it occurs in different species of Impatiens or its closest monotypic relative, Hydrocera triflora (L.) Wight & Arn. The aim of the study was to (a) characterize the fatty acid composition of 21 species of Impatiens and H. triflora and (b) determine whether parinaric and α-eleostearic acids are present in these taxa and, if so, (c) whether there is interspecific and intraspecific variation in parinaric acid content. Fatty acid profiling was done using gas chromatography and mass spectrometry (GC–MS). To uncover taxonomic patterns of variation in fatty acids, principal component analysis and hierarchical cluster analysis were performed. The major fatty acids in Impatiens were found to be palmitic (5.57–20.85%), stearic (2.86–21.61%), oleic (2.79–28.99%), linoleic (C18:2Δ 9,12 , 2.04–26.64%), α-linolenic (C18:3∆ 9,12,15 ; 11.07–53.99%), and four forms of parinaric acid (5.93–70.21%). Genus Impatiens contains two unusual conjugated fatty acids- parinaric and α-eleostearic, however these are absent in closely related H. triflora. This study reports the presence of four different forms of parinaric acid in Impatiens for the first time. Some species ( I. mengtszeana , I. racemulosa and I. oppositifolia ) were found to contain very high levels (> 50%) of parinaric acid and they might be useful for various biomedical and industrial applications. Apparently, the presence of parinaric acid is a characteristic of Impatiens. Significant variations were found in the amount and forms of parinaric acid. We propose the potential application of parinaric acid and α-eleostearic acid as chemotaxonomic markers for Impatiens. Parinaric and α-eleostearic acids are unusual conjugated fatty acids. Unusual fatty acids, in general, are known to have roles in defense response; however, the role of parinaric acid in I. balsamina is not known, nor is it known whether it occurs in different species of Impatiens or its closest monotypic relative, Hydrocera triflora (L.) Wight & Arn. The aim of the study was to (a) characterize the fatty acid composition of 21 species of Impatiens and H. triflora and (b) determine whether parinaric and α-eleostearic acids are present in these taxa and, if so, (c) whether there is interspecific and intraspecific variation in parinaric acid content. Fatty acid profiling was done using gas chromatography and mass spectrometry (GC-MS). To uncover taxonomic patterns of variation in fatty acids, principal component analysis and hierarchical cluster analysis were performed. The major fatty acids in Impatiens were found to be palmitic (5.57-20.85%), stearic (2.86-21.61%), oleic (2.79-28.99%), linoleic (C18:2Δ9,12, 2.04-26.64%), α-linolenic (C18:3∆9,12,15; 11.07-53.99%), and four forms of parinaric acid (5.93-70.21%). Genus Impatiens contains two unusual conjugated fatty acids- parinaric and α-eleostearic, however these are absent in closely related H. triflora. This study reports the presence of four different forms of parinaric acid in Impatiens for the first time. Some species (I. mengtszeana, I. racemulosa and I. oppositifolia) were found to contain very high levels (> 50%) of parinaric acid and they might be useful for various biomedical and industrial applications. Apparently, the presence of parinaric acid is a characteristic of Impatiens. Significant variations were found in the amount and forms of parinaric acid. We propose the potential application of parinaric acid and α-eleostearic acid as chemotaxonomic markers for Impatiens. Supplementary InformationThe online version contains supplementary material available at 10.1007/s12298-022-01194-4.
Author	Geeta, R. Choudhary, Ashish Kumar Mishra, Girish Puri, Renu Barman, Paramananda
Author_xml	– sequence: 1 givenname: Renu surname: Puri fullname: Puri, Renu email: puri.renu8@gmail.com organization: Department of Botany, University of Delhi, Department of Botany, Zakir Husain Delhi College, University of Delhi, Gargi College, University of Delhi – sequence: 2 givenname: Ashish Kumar surname: Choudhary fullname: Choudhary, Ashish Kumar email: ash4biotech@gmail.com, ashishchoudhary@gate.sinica.edu.tw organization: Department of Botany, University of Delhi, Institute of Plant and Microbial Biology, Academia Sinica – sequence: 3 givenname: Paramananda surname: Barman fullname: Barman, Paramananda organization: Department of Botany, University of Delhi, CSIR-National Institute of Science Communication and Policy Research – sequence: 4 givenname: Girish surname: Mishra fullname: Mishra, Girish organization: Department of Botany, University of Delhi – sequence: 5 givenname: R. surname: Geeta fullname: Geeta, R. organization: Department of Botany, University of Delhi
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Keywords	Parinaric acid Unusual conjugated fatty acids Chemotaxonomic marker Balsaminaceae α-Eleostearic acid Impatiens Hydrocera triflora
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Snippet	Parinaric and α-eleostearic acids are unusual conjugated fatty acids. Unusual fatty acids, in general, are known to have roles in defense response; however,...
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SubjectTerms	Biological and Medical Physics Biomedical and Life Sciences Biophysics Cell Biology Cluster analysis Congeners Eleostearic acid Fatty acid composition Fatty acids Gas chromatography Hygrophila triflora Impatiens Industrial applications Life Sciences Mass spectrometry Mass spectroscopy Plant Physiology Plant Sciences Principal components analysis Research Article Species Variation
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Title	Two unusual conjugated fatty acids, parinaric acid and α-eleostearic acid, are present in several Impatiens species, but not in congener Hydrocera triflora
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