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Biotransformation of zerumbone by Caragana chamlagu
Biotechnology Letters, 2008Suspension cultured cells of Caragana chamlagu (Leguminosae) converted zerumbone (1) into zerumbone epoxide (2) as the intermediate, (2R,3R,7R)-2,3-epoxy-9-humulen-8-one (3) and (2R,3S,7R)-2,3-epoxy-9-humulen-8-one (4) as new sesquiterpenes in 11%, 36% and 21% yields, respectively.
Hiroshi Sakamaki +2 more
exaly +3 more sources
Acta Ecologica Sinica, 2008
C. microphylla, C. davazamcii and C. korshinskii exhibit a geographical replacement series from east to west on the Inner Mongolia Plateau. Currently, there is still a debate about the taxonomic and genetic relationship among these 3 species. We studied the genetic diversity and genetic relationship among these 3 species by analyzing DNA samples of ...
Guo Hongyu +5 more
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C. microphylla, C. davazamcii and C. korshinskii exhibit a geographical replacement series from east to west on the Inner Mongolia Plateau. Currently, there is still a debate about the taxonomic and genetic relationship among these 3 species. We studied the genetic diversity and genetic relationship among these 3 species by analyzing DNA samples of ...
Guo Hongyu +5 more
openaire +1 more source
BioEnergy Research, 2021
Caragana is potentially an alternative biomass feedstock in China. The influences of different torrefaction conditions on the physical characteristics and fuel properties of pellets made from Caragana were investigated. The Caragana pellets were torrefied under the temperature of 225, 250, and 275 °C with the residence time of 10, 15, and 20 min ...
Yan Yu +4 more
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Caragana is potentially an alternative biomass feedstock in China. The influences of different torrefaction conditions on the physical characteristics and fuel properties of pellets made from Caragana were investigated. The Caragana pellets were torrefied under the temperature of 225, 250, and 275 °C with the residence time of 10, 15, and 20 min ...
Yan Yu +4 more
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Caragana sericophylla, a replacement name for Caragana spinosissima (Fabaceae)
PhytotaxaN ...
Bhattacharyya, Subhasmit +2 more
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Flavonoids from Caragana pruinosa roots
Fitoterapia, 2016A new pterocarpan derivative, pruinosanone D (1), a new isoflavonoid, pruinosanone E (2), and a new chalcone, pruinosanone F (3), were isolated from Caragana pruinosa roots, along with four known analogues (4-7), identified as 2,4-dihydroxy-3'-methoxy-4'-ethoxychalcone, 7,4-dihydroxyflavanone, butin and scutellaprostin C, respectively. Their structures
Wei, Peng +7 more
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Biotransformation of Cycloalkanediones by Caragana chamlagu.
ChemInform, 2003AbstractFor Abstract see ChemInform Abstract in Full Text.
Wen Chai +3 more
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Caragana aliensis, a new species of Caragana (Leguminosae) from Tibet, China
Kew Bulletin, 2008The genus Caragana Fabr. contains about 80 species, which are distributed over Asia and Europe. Most occur in dry and semi-dry regions of Asia. About 60 species are found in north-eastern, northern, north western and south-western China (Li & Ni 1985), with species are found in Tibet. Specimens from Tibet were re-appraised and one of these was found to
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Antioxidative oligostilbenes from Caragana sinica
Bioorganic & Medicinal Chemistry Letters, 2012Two new oligostilbenes, caragasinins A (5) and B (10), and eight known compounds, kobophenol A (1), (+)-α-viniferin (2), (+)-ampelopsin F (3), pallidol (4), (+)-isoampelopsin F (6), miyabenol C (7), carasinaurone (8) and caraphenol B (9) were isolated from the ethylacetate-soluble extract of the roots of Caragana sinica.
Qinghao, Jin +9 more
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