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Calystegia sepium

Tepfer, D., Goldmann, A., Pamboudikjan, N., Maille, M., Lepingle, A., Chevalier, D., Denarie, J., Rosenberg, C. (1988). A plasmid of Rhizobium meliloti 41 encodes catabolism of two compounds from the root exudate of Calystegia sepium. J. Bacterial., 170, 1153-1161. [Pg.161]

N.A. Calystegia sepium (L.) R. Br. Lectin, calystegins 324,325 Glycosidase inhibitor. [Pg.255]

Peumans, W. J., H. C. Winter, V. Bemer, and L. Van-Leuven. 1997. Isolation of a novel plant lectin with an unusual specificity from Calystegia sepium. Glycoconjugate J. 14 259-265. [Pg.326]

Camellia sinensis, I. aquifolium, I. paraguensis Chaenomeles speciosa, Portulaca oleracea, Rubia tinctorum Rheum officinale, R. palmatum, R. tanguticum Astragalus membranaceus, A. americana Calystegia sepium... [Pg.508]

Calystegia sepium, Narcissus tazetta, Phytolacca acinosa, Ricinus communis Corydalis yanhusuo, C. solida Leonurus cardiaca... [Pg.522]

Calystegia lectin (jacalin type) Calystegia sepium (hedge Maltose, Man [mitogenic]... [Pg.502]

Physalis alkekengi (Solanaceae) Calystegia sepium (Convolvulaceae) [root] edible fruit vegetables (Convolvulaceae, Moraceae, Solanaceae)... [Pg.525]

Cajystegia lectin Calystegia sepium Induction of leucocyte MMP-9... [Pg.549]

Fig. 14.10 Structures and chemical shift assignments of calystegins monitored in root cultures of Calystegia sepium [79]. chemical shifts were reported relative to potassium N-nitrate. Chemical shifts in this figure have been referenced to liquid NH3 using 376.5 ppm, the chemical shift of sodium N-nitrate in water as the conversion factor. Fig. 14.10 Structures and chemical shift assignments of calystegins monitored in root cultures of Calystegia sepium [79]. chemical shifts were reported relative to potassium N-nitrate. Chemical shifts in this figure have been referenced to liquid NH3 using 376.5 ppm, the chemical shift of sodium N-nitrate in water as the conversion factor.
Calystegine Bi Convolvulus arvensis (Convolyulaceae) leaves/roots Calystegia sepium (Convolyulaceae) leaves/roots Physalis alkekengi (Solanaceae) roots Hyoscyamus niger (Solanaceae) leaves/roots Mandragora officinarum (Solanaceae) leaves/roots/fruits" Scopolia spp. (Solanaceae) leaves/roots Ipomoea batatus (Convolyulaceae) leaves/roots Duboisia leicMutrdtii (Solanaceae) leaves Lycium chinense (Solanaceae) roots ... [Pg.175]

Goldmann, A, Milat, M L, Ducrot, P H, Lallemand, J Y, Maille, M, Lepingle, A, Charpin, I, Tepfer, D, Tropane derivatives from Calystegia sepium. Phytochemistry, 29, 2125-2127, 1990. [Pg.434]

Calystegine A (32)/ Calystegine B2 (33) Calystegia sepium (Convolvulaceae) leaves/roots [47.48] Calystegia japonica (Convolvulaceae) roots [8] Convolvulus arvensis (Convolvulaceae) leaves/roots [47.49] Ipomoea sp. aff. calobra (Convolvulaceae) seeds [38] Atropa belladonna (Solanaceae) leaves/roots [47,48]... [Pg.350]

Calystegine Bi (35) Calystegia sepium (Convotvulaceae) leaves/roots [48] Convolvulus arvensis (Convotvulaceae) leaves/roots [47,49] Ipomoea batatus (Convotvulaceae) leaves/roots [8] Physalis alkekengi (Solanaceae) roots [51] Scopolia carniolica (Solanaceae) leaves/roots [52] Mandragora officinarum (Solanaceae) leaves/roots/fruits [52] Hyoscyamus tuger (Solanaceae) leaves/roots [52]... [Pg.351]

Calystegins A3, Bi and B2 (257a-c) were isolated from Calystegia sepium. These alkaloids were also present in Convolvus arvenis and Atropa belladonna, and they were found to be catabolized by Rhizobium meliloti strain 41 [584], The structures of 257a-c were determined with HRMS, and H and NMR, and were confirmed by the synthesis and NMR analysis of model compounds [585], C-Putrescine served as a biosynthetic precursor for the calystegins [586],... [Pg.260]

Calystegia sepium (calystegines), 357 Carica papaya (azimic acid), 164 Carica papaya (azimine), 164 Carica papaya (carpaine), 164 Carica papaya (carpamic acid), 164 Cassia species (cassine), 163,164, 174 Cassia species (iso-6-cassine), 163,164, 174... [Pg.424]

TB (15) is a contact herbicide, used postemergence in cereals and quince berry at a rate of 2.5-4 kg active ingredient/ha, mainly for the control of Convolvulus spp. and Calystegia sepium. [Pg.514]

Fujita Y (1990) The production of industrial compounds. In Bhojwani SS (ed) Plant tissue culture applications and limitations. Elsevier, Amsterdam, pp 259-275 Gamborg OL, Miller RA, Ojima K (1986) Nutrient requirements of suspension cultures of soybean root cells. Exp Cell Res 50 151-158 Goldmann A, Milat M-L, Ducrot P-H, Lallemand J-Y, Maille M, Lepingle A, Charpin I, Tepfer D (1990) Tropane derivatives from Calystegia sepium. Phytochemistry 29 2125-2127... [Pg.212]

Calystegia sepium Tropane alkaloids Root culture... [Pg.228]

Scholl Y, Schneider B, Drager B (2003) Biosynthesis of calystegines NNMR and kinetics of formation in root cultures of Calystegia sepium. Phytochemistry 62(3) 325-332... [Pg.357]

See other pages where Calystegia sepium is mentioned: [Pg.49]    [Pg.136]    [Pg.157]    [Pg.301]    [Pg.563]    [Pg.568]    [Pg.126]    [Pg.341]    [Pg.80]    [Pg.175]    [Pg.1898]    [Pg.357]    [Pg.761]    [Pg.236]    [Pg.184]    [Pg.718]    [Pg.66]    [Pg.67]    [Pg.213]   
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See also in sourсe #XX -- [ Pg.260 ]

See also in sourсe #XX -- [ Pg.22 , Pg.718 ]

See also in sourсe #XX -- [ Pg.718 ]

See also in sourсe #XX -- [ Pg.50 , Pg.51 , Pg.56 , Pg.71 , Pg.81 ]



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Calystegia sepium (Calystegines

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