Therese Ellendorff scite author profile

Therese Ellendorff

5Publications

29Citation Statements Received

124Citation Statements Given

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113

Affiliations

University of Münster

Publications

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PLS-Prediction and Confirmation of Hydrojuglone Glucoside as the Antitrypanosomal Constituent of Juglans Spp.

et al. 2015

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Naphthoquinones (NQs) occur naturally in a large variety of plants. Several NQs are highly active against protozoans, amongst them the causative pathogens of neglected tropical diseases such as human African trypanosomiasis (sleeping sickness), Chagas disease and leishmaniasis. Prominent NQ-producing plants can be found among Juglans spp. (Juglandaceae) with juglone derivatives as known constituents. In this study, 36 highly variable extracts were prepared from different plant parts of J. regia, J. cinerea and J. nigra. For all extracts, antiprotozoal activity was determined against the protozoans Trypanosoma cruzi, T. brucei rhodesiense and Leishmania donovani. In addition, an LC-MS fingerprint was recorded for each extract. With each extract's fingerprint and the data on in vitro growth inhibitory activity against T. brucei rhodesiense a Partial Least Squares (PLS) regression model was calculated in order to obtain an indication of compounds responsible for the differences in bioactivity between the 36 extracts. By means of PLS, hydrojuglone glucoside was predicted as an active compound against T. brucei and consequently isolated and tested in vitro. In fact, the pure compound showed activity OPEN ACCESSMolecules 2015, 20 10083 against T. brucei at a significantly lower cytotoxicity towards mammalian cells than established antiprotozoal NQs such as lapachol.

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Occurrence of Benzoic Acid Esters as Putative Catabolites of Prunasin in Senescent Leaves of Prunus laurocerasus

2016

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Prunus laurocerasus is an evergreen shrub containing large quantities of the cyanogenic glycoside prunasin (1) in its leaves, which decomposes to prunasin amide (2) or glucose-1-benzoate (4) when the leaves become chlorotic as a result of senescence or pseudosenescence. This study was aimed at the systematic identification of senescence-associated metabolites to contribute further insight into the catabolism of 1. LC-ESIMS profiles of senescent and green leaves were analyzed by principal component analysis. In senescent leaves, the concentrations of 36 compounds were increased significantly including several benzoic acid derivatives, of which prunasin amide-6'-benzoate (5) and prunasin acid-6'-benzoate (6) were isolated and identified. The observed metabolic changes were also induced by treatment of P. laurocerasus shrubs with exogenous ethylene. The data presented support an oxidative catabolism of 1 without release of hydrogen cyanide and the remobilization of its nitrogen in the course of senescence. The results are discussed in the context of functional diversification and drug discovery, where senescent plant material represents a widely unexplored source for the discovery of natural products.

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6-Methoxypodophyllotoxin-7-O-n-Hexanoate, a New Aryltetralin Lignan Ester from Seeds ofLinum flavum

Klaes

Ellendorff²,

Schmidt³

2009

Planta Med

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A new aryltetralin-type lignan, 6-methoxypodophyllotoxin-7- O-n-hexanoate, was isolated from the seeds of Linum flavum L. var. compactum (Linaceae) by silica gel column chromatography of the dichloromethane extract. This lignan, previously detected by our group in the aerial parts of several Linum species by HPLC-MS, has now been isolated for the first time, and its structure is now confirmed and fully characterized by assignment of all NMR data as well as the CD spectrum. The occurrence of aryltetralin lignans, which are well known in the case of aerial parts and roots, in the seeds of a Linum species has not been reported before.

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Application of multivariate statistical analysis for the discovery of compounds with c-Myb-inhibitory activity in extracts of Juglans species

Ellendorff¹,

Sendker²,

Klempnauer³

et al. 2013

Planta Med

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Discovery of senescence associated metabolites in Juglans regia leaves by the use of principal component analysis (PCA)

Ellendorff¹,

Sendker²,

Schmidt³

2013

Z Phytother

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