Anthocyanins of the Fouquieriaceae

Species of the Fouquieriaceae cluster into four groups on the basis of floral anthocyanin content. The four clusters agree with species groupings based on morphological characters. Floral anthocyanins support a close relationship between the Fouquieriaceae and the Solanales.     

A chemosystematic study of the phenolics of Sonchus

Thirty-three Sonchus, one Embergeria, one Babcockia and five Taeckholmia species were surveyed for their phenolic constituents. The coumarins scopoletin and aesculetin were found as major constituents of Embergeria, Babcockia and Taeckholmia species, and in lesser amount in some Sonchus species. Six flavone glycosides were identified: apigenin 7-glucuronide, apigenin 7-rutinoside, luteolin 7-glucoside, luteolin 7-glucuronide, luteolin 7-rutinoside and luteolin 7-glucosylglucuronide and the systematic significance of their distribution is discussed.     

The flavonoids of ferns in the isolated genera Loxsoma and Loxsomopsis

Kaempferol and quercetin 3-O-glucosides and 3-O-rhamnoglucosides are common to both Loxsoma cunninghamii and Loxsomopsis costaricensis, but in the former the new flavonoid glycosides, kaempferol and quercetin 3-O-glucoside-7-O-arabinoside have also been identified. The data are consistent with the proposed taxonomic relationship between these geographically isolated genera. Comparative flavonoid chemistry indicates that the Loxsomaceae may be a primitive family, not closely related to the Hymenophyllaceae or the Cyatheaceae.     

Flavonoid glycosides of Tribulus pentandrus and T. Terrestris

Twenty-five flavonoid glycosides were detected in Tribulus pentandrus and T. terrestris. The glycosides belong to the common flavonols, kaempferol, quercetin and isorhamnetin, with the 3-gentiobiosides as the major glycosides. Traces of a flavone (tricin) glycoside was also present in T. pentandrus. The separation of Tribulaceae as a distinct family from Zygophyllaceae is discussed.     

Flavonoid glycosides and the chemosystematics of Eucalyptus camaldulensisis

Leaf flavonoid glycosides of Eucalyptus camaldulensis were identified as kaempferol 3-glucoside and 3-glucuronide; quercetin 3-glucoside, 3-glucuronide, 3-rhamnoside, 3-rutinoside and 7-glucoside, apigenin 7-glucuronide and luteolin 7-glucoside and 7-glucuronide. Two chemical races were observed based on the flavonoid glycosides. These races correspond to the northern and southern populations of species growing in Australia. The Middle Eastern species examined were found to belong to the southern Australian chemical race. The major glycosides of E. occidentalis proved to be quercetin and myricetin 3-glucuronide.     

A comparative study of the flavonoids of Medicago radiata with other Medicago and related Trigonella species

The flavonoid glycosides of Medicago radiata as well as M. arabica, M. polymorpha, M. sativa, Trigonella coerulescens, T. foenum-graecum and T. spicata were studied in detail. Major glycosides identified were the 7-glucuronides of apigenin, luteolin, chrysoeriol and tricin, as well as lesser amounts of di- and triglucuronides of chrysoeriol and tricin. Also identified were the 3-robinobioside and 3,7-diglucoside of kaempferol, along with lesser amounts of quercetin-3,7-diglucoside, 4′,7-dihydroxyflavone, 3′,4′,7-trihydroxyflavone, formononetin and daidzein. Twelve other Medicago and Trigonella species were also studied for their flavonoid aglycones. The systematic position of M. radiata is discussed.     

Flavonoids of three local Senecio species

Two isorhamnetin glycosides and two sulphated derivatives are reported for the first time in the genus Senecio.     

A quantitative variation in the flavonoids and phenolics of some Casuarina species

The flavonoids and phenolics of four Casuarina species were studied. Fourteen glycosides of kaempferol and quercetin, cupressuflavone, condensed and hydrolysable tannins were identified. The results indicate that C. cunninghamiana, C. glauca and C. stricta are closely related while C. equisetifolia differs mainly quantitatively from the other three.     

La systématique infraspécifiquede l'Anthyllis vulneraria (Leguminosae) vue à la lumière de la biochimie flavonique

Twenty-six experimental populations of A. vulneraria were surveyed for leaf flavonoids. The distribution of 34 flavonol glycosides showed, after factor analysis, the existence of for distinct chemical taxa, each exhibiting characteristic glycosides of 7-methylkaempferol. These results, and others obtained from further factor analysis, are discussed in relation to Couderc's taxonomic studies, and allow a better definition of infraspecific units of A. vulneraria. Flavonoid and morphological data are generally correlated.     

Flavonoids and other phenolics of Cichorium and related members of the Lactuceae (Compositae)

Extraction of the leaves of chicory, Cichoriumintybus , revealed the presence for the first time of the 3-glucuronides of kaempferol, quercetin and isorhamnetin, the 3-glucoside of kaempferol and the 7-glucuronide of luteolin. The same compounds appear to occur throughout the genus. An aglycone survey of the leaves of 240 other members of the Lactuceae failed to reveal any other source of isorhamnetin, although quercetin and kaempferol were found as occasional constituents in 12 other genera. In Lactuca , a survey of 12 species showed eight with quercetin present. In general, though, flavonols are more uncommon than flavones and thus have more potential as taxonomic markers within the tribe. The coumarins cichoriin and aesculin and the caffeoyl-tartaric acid ester, chicoric acid, were also found to be present widely in the tribe.     

La variation flavonique chez les sous-especes de l'Anthyllis vulneraria

Nine infraspecific taxa of Anthyllis vulneraria have been investigated for leaf flavonoids. The distribution of 35 flavonol glycosides within 26 populations, indicated the presence of four chemical taxa, each based on different glycosides of 7-methylkaempferol.     

Leaf flavonoids of Amborella trichopoda

The leaf flavonoids of Amborella trichopoda were examined and two kaempterol glycosides were detected. Procyanidin was also present. These results are similar to the flavonoid pattern in other families of the Laurales and it is suggested that simple flavonol glycosides are a primitive feature in the order.     

Molecular phylogenetics of Fouquieriaceae: evidence from nuclear rDNA ITS studies

Molecular sequence data from the 18S-26S rDNA internal transcribed spacer (ITS) region support the monophyly of Fouquieria sensu lato (Fouquieriaceae) and the three subgenera (subg. Fouquieria, subg. Bronnia, subg. Idria) previously recognized within it. Resolution within subg. Fouquieria differs somewhat between parsimony and maximum likelihood (ML) trees. Section Fouquieria and sect. Ocotilla within subg. Fouquieria are not well supported as monophyletic groups. Uncertainty regarding placement of the root within Fouquieriaceae makes discussion of character evolution within the family difficult. Three root positions are consistent with rate-constant evolution of ITS sequences: (1) along the branch to subg. Idria, (2) along the branch to subg. Bronnia, and (3) along the branch to subg. Fouquieria. The first root position listed is equivalent to an outgroup rooting. The third root position listed is equivalent to a midpoint rooting. Of the three root positions above, only the third is along a branch that may be sufficiently long to act as a long-branch attractor. The first two root positions would result in character reconstruction suggesting that succulent growth forms and white floral pigmentation are ancestral within the family, with shifts to woody growth forms and to red floral pigmentation. The third root position results in equivocal reconstruction of the ancestral growth form, equivocal reconstruction of ancestral floral pigmentation in parsimony trees, and a suggestion of white floral pigmentation as ancestral in ML trees. Two previous hypotheses of polyploid origins are compatible with the molecular data presented here: (1) origin of the tetraploid F. diguetii from F. macdougalii, and (2) allopolyploid origin of the hexaploid F. burragei from the tetraploid F. diguetii and a diploid species similar to F. splendens. Direct descent of the hexaploid F. columnaris from the subg. Bronnia lineage is not supported by our data. An amphiploid origin of F. columnaris involving a member of the subg. Bronnia lineage and an extinct taxon outside subg. Bronnia, however, cannot be ruled out.     

Iridoid glucosides in fouquieriaceae

From three Fouquieria sp. 12 iridoid glucosides were isolated and identified. Eight of these were structurally related to galioside (monotropein methylester), while four were hydroxy substitution products of deoxyloganin. In three cases the glucoside occurred together with the corresponding 10-O-acetate.     

New evidence for the systematic significance of acylated spermidines and flavonoids in pollen of Higher Hamamelidae

New distributional recores of hydroxycinnamoyl spermidines (HCS), including novel trisubstituted HCSs and flavonol glycosides, in pollen of Higher Hamamelidae are presented. The 51 taxa analyzed by HPLC and TLC included members of the families Fagaceae (Castanoideae, Fagoideae, Quercoideae), Betulaceae, Juglandaceae, Myricaceae, Hamamelidaceae, Rosaceae, and Buxaceae (Simmondsia). The results support generic concepts in the Higher Hamamelidae derived from morphological and chloroplast DNA data and support a close evolutionary relationship between the Higher Hamamelidae and the Rosidae.     

Leaf flavonoids of Ziziphus spina-christi

From the leaves of Ziziphus spina-christi, the new flavonoid quercetin 3-xylosyl(1→2)rhamnoside-4′-rhamnoside as well as rutin, hyperin and quercitrin were characterized. The structures were established by chromatography, chemical degradation and UV spectroscopy, and confirmed by ¹H NMR and ¹³C NMR spectroscopy.     

Flavonoids of Mayaca fluviatilis (Mayacaceae)

Mayaca is an aquatic monocot of the monogeneric family Mayacaceae. The flavonol glycosides quercetin 3-O-glucoside, quercetin 3-O-rutinoside, and kaempferol 3-O-glucoside, and the flavone luteolin 5-O-glucoside were found in methanolic leaf extracts. The presence of flavonol and flavone O-glycosides sets the Mayacaceae apart from the Commelinaceae, which accumulates predominantly flavone C-glycosides.     

The occurrence of acylated flavonol glycosides in the cruciferae

Nine acylated glycosides of kaempferol or quercetin were identified in Sisymbrium gilliesii, and in three Crambe spp. They were usually present together with the related unacylated glycosides. Acylation is a very common characteristic of the four crucifer species studied.