Results 181 to 190 of about 5,913 (200)

Phylogeny of the Caryophyllales ‐ gene sequence data

TAXON, 1992
SummaryRettig, J. H., Wilson, H. D. & Manhart, J. R.: Phylogeny of the Caryophyllales ‐ gene sequence data. ‐ Taxon 41: 201–209. 1992. ‐ ISSN 0040‐0262.Phylogenetic relationships among selected families of the Caryophyllales were examined by analyses of nucleotide sequences of the large subunit of ribulose‐l,5‐bisphosphate carboxylase/oxygenase ...
J. H. Rettig, Hugh D. Wilson, James R. Manhart   +2 more
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Introduction to Expanded Caryophyllales

2003
The order Caryophyllales (s.str., also called Centrospermae) has been identified as a natural group by early workers (Braun 1864; Eichler 1876). The main characters used for the recognition of this group include the free-central or basal placentation, the presence of perisperm instead of endosperm as seed storage tissue, and curved embryos (Bittrich ...
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Sterols of caryophyllales with emphasis on amaranthaceae

Phytochemistry, 1991
Abstract Thirty species of Amaranthaceae representing 14 genera, were examined for sterol composition. The major sterols were spinasterol, 7-stigmastenol, sitosterol and stigmasterol. Although previous work with 2 genera and 11 species of Amaranthaceae revealed only species with dominant Δ 7 -sterols, the present work shows 19 species with dominant Δ
Glenn W. Patterson, Xu Sihua, Thomas A. Salt   +2 more
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ON SPECIFIC SIEVE‐TUBE PLASTIDS IN CARYOPHYLLALES

TAXON, 1971
SummarySieve tubes of Caryophyllales (35 species from 12 families investigated) contain specific plastids that are characterized by peripherally lying ring‐shaped bundles of proteinaceous filaments and often an additional core. In most of the families the presence of a peculiar plastid in sieve tubes coincides with the formation of betacyanins and ...
H.‐D. Behnke, B. L. Turner
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Chorological and taxonomic notes on African plants, 4: Caryophyllales

Botany Letters, 2019
Some taxonomically critical and poorly known taxa from the order Caryophyllales are discussed. Both molecular and morphological data suggest that the chorologically distant populations of Tribuloca...
Alexander P. Sukhorukov, Maria Kushunina, Ridha El Mokni, Nicola M. G. Ardenghi, Filip Verloove, Pertti Uotila, Cláudia Baider, Peter V. Bruyns, Cornelia Klak   +8 more
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Androecial evolution in Caryophyllales in light of a paraphyletic Molluginaceae

American Journal of Botany, 2013
• Premise of the study: Caryophyllales are highly diverse in the structure of the perianth and androecium and show a mode of floral development unique in eudicots, reflecting the continuous interplay of gynoecium and perianth and their influence on position, number, and identity of the androecial whorls. The floral development of five species from four
Samuel, Brockington, Patricia, Dos Santos, Beverley, Glover, Louis Ronse, De Craene   +3 more
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Pigment Evolution in the Caryophyllales: a Systematic Overview*

Botanica Acta, 1996
Abstract:While the apparent mutual exclusiveness of anthocyanins and betalains in the Caryophyllales has given rise to considerable taxonomic debate, historical factors affecting the present distribution of these compounds have rarely been discussed.
J. S. Clement, T. J. Mabry
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Flavonols and C-Glycosylflavonoids of the caryophyllales

Biochemical Systematics and Ecology, 1978
Abstract A survey of 112 species of the Caryophyllales showed the presence of flavonols in all eleven families and of C -glycosylflavonoids in nine families, being absent from the Aizoaceae and Cactaceae. 18% of the species contained both classes of compound.
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Caryophyllales

2023
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Flora of Nigeria: Caryophyllales.

Brittonia, 1991
Laurence J. Dorr, Shahina A. Ghazanfar
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