chemosystematic study of the flavonoids of Vigna

Flavonoid chemical markers together with other biochemical markers and /or morphological data can provide useful characters for defining species in Vigna genus. In this paper flavonoid HPLC fingerprints have been utilized to assess taxonomic relationships amongst species and accessions of Vigna. Wit...

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Published in:Genetic resources and crop evolution 1996-12, Vol.43 (6), p.493-504
Main Authors: Lattanzio, V, Cardinali, A, Linsalata, V, Perrino, P, Ng, N.Q
Format: Article
Language:English
Subjects:
chemical constituents of plants
chemotaxonomy
cultivars
flavonoids
glycosides
leaves
plant genetic resources
plant morphology
Vigna
Vigna unguiculata
wild relatives
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cited_by cdi_FETCH-LOGICAL-c284t-becaec158725766afad35df3e7ce6109efa0f469f41e635c25352e4bb333afed3
cites cdi_FETCH-LOGICAL-c284t-becaec158725766afad35df3e7ce6109efa0f469f41e635c25352e4bb333afed3
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container_issue 6
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container_title Genetic resources and crop evolution
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creator Lattanzio, V
Cardinali, A
Linsalata, V
Perrino, P
Ng, N.Q
description Flavonoid chemical markers together with other biochemical markers and /or morphological data can provide useful characters for defining species in Vigna genus. In this paper flavonoid HPLC fingerprints have been utilized to assess taxonomic relationships amongst species and accessions of Vigna. Within the taxa analysed there is evidence of both infra- and interspecific chemical variations. In some species chromatographic data support evidence for the existence of different flavonoid chemotypes, which may reflect differences in geographic origin. As far as interspecific relationships are concerned, species belonging to sections Vigna, Plectotropis and Ceratotropis do not show flavonoid glycosides in common with cultivated lines of Vigna. By contrast, some relationships have been found between cultivated lines and wild species of section Catiang. Kaempferol-3-rutinoside and an unidentified kaempferol-glycoside were the only flavonoids detected in the three subgenera analysed. Finally, a greater variability in flavonoid aglycone class and glycosylation pattern has been observed in cultivars of V. unguiculata (L.) Walp. compared to the wild species. This observation may confirm that cultivation and/or domestication may cause or increase species diversification.
doi_str_mv 10.1007/BF00138826
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subjects chemical constituents of plants
chemotaxonomy
cultivars
flavonoids
glycosides
leaves
plant genetic resources
plant morphology
Vigna
Vigna unguiculata
wild relatives
title chemosystematic study of the flavonoids of Vigna
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