- Formation of biphenyl and dibenzofuran phytoalexins in the transition zones of fire blight-infected stems of Malus domestica cv. 'Holsteiner Cox' and Pyrus communis cv. 'Conference'
[作者:Chizzali, C; Khalil, MNA; Beuerle, T; Schuehly, W; Richter, K; Flachowsky, H; Peil, A; Hanke, MV; Liu, BY; Beerhues, L,期刊:Phytochemistry, 页码:179-185 , 文章类型: Article,,卷期:2012年77-1]
- In the rosaceous subtribe Pyrinae (formerly subfamily Maloideae), pathogen attack leads to formation of biphenyls and dibenzofurans. Accumulation of these phytoalexins was studied in greenhouse-grown grafted shoots of Ma...
- Genetic and chemical diversity of citron (Citrus medica L.) based on nuclear and cytoplasmic markers and leaf essential oil composition
[作者:Luro, F; Venturini, N; Costantino, G; Paolini, J; Ollitrault, P; Costa, J,期刊:Phytochemistry, 页码:186-196 , 文章类型: Article,,卷期:2012年77-1]
- Native to southeast Asia, the citron (Cirrus medica L) was the first citrus fruit to be introduced to the Mediterranean area, in the third century BC, and remained its only citrus representative until the tenth century. ...
- Isolation and characterization of ellagitannins as the major polyphenolic components of Longan (Dimocarpus longan Lour) seeds
[作者:Sudjaroen, Y; Hull, WE; Erben, G; Wurtele, G; Changbumrung, S; Ulrich, CM; Owen, RW,期刊:Phytochemistry, 页码:226-237 , 文章类型: Article,,卷期:2012年77-1]
- Longan (Dimocarpus longan Lour, syn. Euphoria longan Lam.) represents an important fruit in Northern Thailand and has significant economic impact. The fruit is either consumed fresh or as commercially prepared dried and ...
- Flavonoid and cardenolide glycosides and a pentacyclic triterpene from the leaves of Nerium oleander and evaluation of cytotoxicity
[作者:Siddiqui, BS; Khatoon, N; Begum, S; Farooq, AD; Qamar, K; Bhatti, HA; Ali, SK,期刊:Phytochemistry, 页码:238-244 , 文章类型: Article,,卷期:2012年77-1]
- A pentacyclic triterpene, oleanderocioic acid, two flavonoidal glycosides, quercetin-5-O-[alpha-L-rhamnopyranosyl-(1 -> 6)]-beta-D-glucopyranoside and kaempferol-5-O-[alpha-L-rhamnopyranosyl-(1 -> 6)-beta-D-glucopyranosi...
- Afritoxinones A and B, dihydrofuropyran-2-ones produced by Diplodia africana the causal agent of branch dieback on Juniperus phoenicea
[作者:Evidente, A; Masi, M; Linaldeddu, BT; Franceschini, A; Scanu, B; Cimmino, A; Andolfi, A; Motta, A; Maddau, L,期刊:Phytochemistry, 页码:245-250 , 文章类型: Article,,卷期:2012年77-1]
- Two phytotoxic dihydrofuropyran-2-ones, named afritoxinones A and B. were isolated from liquid culture of Diplodia africana. a fungal pathogen responsible for branch dieback of Phoenicean juniper in Italy. Additionally, ...
- Prenylated cinnamate and stilbenes from Kangaroo Island propolis and their antioxidant activity
[作者:Abu-Mellal, A; Koolaji, N; Duke, RK; Tran, VH; Duke, CC,期刊:Phytochemistry, 页码:251-259 , 文章类型: Article,,卷期:2012年77-1]
- A prenylated cinnamic acid derivative as well as six prenylated tetrahydroxystilbenes were isolated from the ethyl acetate extract of propolis that originated from Kangaroo Island, Australia. Furthermore, six known stilb...
- Biosynthesis of rhodiocyanosides in Lotus japonicus: Rhodiocyanoside A is synthesized from (Z)-2-methylbutanaloxime via 2-methyl-2-butenenitrile
[作者:Saito, S; Motawia, MS; Olsen, CE; Moller, BL; Bak, S,期刊:Phytochemistry, 页码:260-267 , 文章类型: Article,,卷期:2012年77-1]
- Lotus japonicus contains the two cyanogenic glucosides, linamarin and lotaustralin, and the non cyanogenic hydroxynitriles, rhodiocyanoside A and D, with rhodiocyanoside A as the major rhodiocyanoside. Rhodiocyanosides a...
- Triterpene saponins from Antonia ovata leaves
[作者:Magid, AA; Lalun, N; Long, C; Borie, N; Bobichon, H; Moretti, C; Lavaud, C,期刊:Phytochemistry, 页码:268-274 , 文章类型: Article,,卷期:2012年77-1]
- Six pentacyclic triterpenoid saponins, named antoniosides E-J along with two known alkaloids, were isolated from the leaves of Antonia ovata. Their structures were determined by the extensive use of 1D and 2D-NMR experim...
- Rare noriridoids from the roots of Andrographis paniculata
[作者:Xu, C; Chou, GX; Wang, CH; Wang, ZT,期刊:Phytochemistry, 页码:275-279 , 文章类型: Article,,卷期:2012年77-1]
- The rare noriridoids, Andrographidoids A-E (1-5), along with a known iridoid curvifloruside F (6), were isolated from roots of Andrographis paniculata. All noriridoids were aglycones and 1-4 had (semi-) acetal structures...
- Xanthones from the stem bark of Garcinia bracteata with growth inhibitory effects against HL-60 cells
[作者:Niu, SL; Li, ZL; Ji, F; Liu, GY; Zhao, N; Liu, XQ; Jing, YK; Hua, HM,期刊:Phytochemistry, 页码:280-286 , 文章类型: Article,,卷期:2012年77-1]
- Five xanthones, 1,4,5,6-tetrahydroxyxanthone (1) and bracteaxanthones III-VI (2-5) together with twenty-six known compounds (6-31), were isolated from the ethanol extract of the stem bark of Garcinia bracteata. Their str...
- Identification of intermediates involved in the biosynthetic pathway of 3-mercaptohexan-1-ol conjugates in yellow passion fruit (Passiflora edulis f. flavicarpa)
[作者:Fedrizzi, B; Guella, G; Perenzoni, D; Gasperotti, M; Masuero, D; Vrhovsek, U; Mattivi, F,期刊:Phytochemistry, 页码:287-293 , 文章类型: Article,,卷期:2012年77-1]
- Yellow passion fruit is one of the most well-known tropical fruits and much of its success comes from its typical aroma. Key compounds in explaining yellow passion fruit scent are volatile thiols. These molecules are rep...
- Selective (1)O(2) quenchers, oligostilbenes, from Vitis wilsonae: Structural identification and biogenetic relationship
[作者:Jiang, LY; He, S; Sun, CR; Pan, YJ,期刊:Phytochemistry, 页码:294-303 , 文章类型: Article,,卷期:2012年77-1]
- Two previously unknown resveratrol trimers named wilsonols A-B, as well as a resveratrol tetramer named wilsonol C, were isolated from Vitis wilsonae Veitch, together with 12 known oligostilbenes. Their chemical structur...
- alpha-Santalol derivatives from Santalum album and their cytotoxic activities
[作者:Matsuo, Y; Mimaki, Y,期刊:Phytochemistry, 页码:304-311 , 文章类型: Article,,卷期:2012年77-1]
- A bioassay-guided fractionation of the heartwood of Santalum album led to the isolation of seven alpha-santalol derivatives including (9S,10E)-9-hydroxy-alpha-santalal, (10R,11S)-10,11-dihydroxy-alpha-santalol, (9E)-11,1...
|