Exploiting the allelopathic properties of agricultural crops in low-input cropping systems

The FATEALLCHEM project (5th framework programme) applied a holistic approach and used modern techniques in allelopathy research, concluded on the possibilities of exploiting allelopathic properties of wheat and rye and established a framework for future allelopathy research. An extract of the results of the FATEALLCHEM project will be presented, based on 18 recent papers, published in the Journal of Agricultural and Food Chemistry, 2006, vol 54 (available on the web of JAFC

LC-MS/MS Quantification Reveals Ample Gut Uptake and Metabolization of Dietary Phytochemicals in Honey Bees (Apis mellifera)

The honey bee pollen/nectar diet is rich in bioactive phytochemicals and recent studies have demonstrated the potential of phytochemicals to influence honey bee disease resistance. To unravel the role of dietary phytochemicals in honey bee health it is essential to understand phytochemical uptake, bioavailability, and metabolism but presently limited knowledge exists. With this study we aim to build a knowledge foundation. For 5 days, we continuously fed honey bees on eight individual phytochemicals and measured the concentrations in whole and dissected bees by HPLC-MS/MS. Ample phytochemical metabolization was observed, and only 6-30% of the consumed quantities were recovered. Clear differences in metabolization rates were evident, with atropine, aucubin, and triptolide displaying significantly slower metabolism. Phytochemical gut uptake was also demonstrated, and oral bioavailability was 4-31%, with the highest percentages observed for amygdalin, triptolide, and aucubin. We conclude that differences in the chemical properties and structure impact phytochemical uptake and metabolism

Determination of the Effect of Co-cultivation on the Production and Root Exudation of Flavonoids in Four Legume Species Using LC–MS/MS Analysis

Flavonoids play a key role in the regulation of plant−plant and plant−microbe interactions, and factors determining their release have been investigated in most of the common forage legumes. However, little is known about the response of flavonoid production and release to co-cultivation with other crop species. This study investigated alterations in the concentration of flavonoids in plant tissues and root exudates in four legumes [alfalfa (Medicago sativa L.), black medic (Medicago polymorpha L.), crimson clover (Trifolium incarnatum L.), and subterranean clover (Trifolium subterraneum L.)] co-cultivated with durum wheat [ Triticum turgidum subsp. durum (Desf.) Husn.]. For this purpose, we carried out two experiments in a greenhouse, one with glass beads as growth media for root exudate extraction and one with soil as growth media for flavonoid detection in shoot and root biomass, using LC−MS/MS analysis. This study revealed that interspecific competition with wheat negatively affected legume growth and led to a significant reduction in shoot and root biomass compared with the same legume species grown in monoculture. In contrast, the concentration of flavonoids significantly increased both in legume biomass and in root exudates. Changes in flavonoid concentration involved daidzein, genistein, medicarpin, and formononetin, which have been found to be involved in legume nodulation and regulation of plant−plant interaction. We hypothesize that legumes responded to the co-cultivation with wheat by promoting nodulation and increasing exudation of allelopathic compounds, respectively, to compensate for the lack of nutrients caused by the presence of wheat in the cultivation system and to reduce the competitiveness of neighboring plants. Future studies should elucidate the bioactivity of flavonoid compounds in cereal-legume co-cultivation systems and their specific role in the nodulation process and inter-specific plant interactions such as potential effects on weeds

Variation in Flavonoids in Leaves, Stems and Flowers of White Clover Cultivars:

In the present study, the major flavonoids of white clover ( Trifolium repens L.) cv. Sonja were extracted, isolated and identified. The major flavonoids in leaves and stems were the four flavonol glycosides: kaempferol-3- O-{Xyl(1→2)-Gal} (kaempferol-Xyl-Gal), kaempferol-3- O-{Rha(1→6)-[Xyl(1→2)]-Gal} (kaempferol-Rha-Xyl-Gal), quercetin-3- O-{Xyl(1→2)-Gal} (quercetin-Xyl-Gal), and quercetin-3- O-{Rha(1→6)-[Xyl(1→2)]-Gal} (quercetin-Rha-Xyl-Gal). Quercetin-Rha-Xyl-Gal has never been reported before and kaempferol-Rha-Xyl-Gal has not previously been identified in clover aerial parts. Concentrations of those compounds, together with aglyconic flavonoids previously described in white clover, as well as their glycosides, were quantified in leaves/stems and flowers of four white clover cvs Rabani, Klondike, Ramona and Aran using tandem mass spectrometry. There were significant differences in flavonoid concentrations in the two plant parts, with the highest concentrations of most aglycones in flowers and the highest concentrations of most glycosides in leaves/stems. This distribution of compounds may indicate different ways of storage and/or different mechanisms of action of the compounds. The cultivars were selected for genetic diversity, which resulted in distinctly different amounts of flavonoids in the plants. Concentrations of 17 of 24 compounds varied significantly – for some compounds up to a factor of 10 – among cultivars. Total flavonoid concentrations in flowers did not vary greatly among cultivars, at 28.9–35.8 mmol/g dry material (DM). In contrast, in leaves/stems, the cvs Rabani and Klondike had lower concentrations of most flavonoids (total concentrations 10.0 and 12.7 mmol/gDM, respectively) compared to cvs Aran and Ramona (32.3 and 22.1 mmol/gDM, respectively). There is a potential for breeding/selection of cultivars with targeted concentrations of particular flavonoids

An inverse association between plasma benzoxazinoid metabolites and PSA after rye intake in men with prostate cancer revealed with a new method

Prostate cancer (PC) is a common cancer among men, and preventive strategies are warranted. Benzoxazinoids (BXs) in rye have shown potential against PC in vitro but human studies are lacking. The aim was to establish a quantitative method for analysis of BXs and investigate their plasma levels after a whole grain/bran rye vs refined wheat intervention, as well as exploring their association with PSA, in men with PC. A quantitative method for analysis of 22 BXs, including novel metabolites identified by mass spectrometry and NMR, was established, and applied to plasma samples from a randomized crossover study where patients with indolent PC (n = 17) consumed 485 g whole grain rye/rye bran or fiber supplemented refined wheat daily for 6 wk. Most BXs were significantly higher in plasma after rye (0.3-19.4 nmol/L in plasma) vs. refined wheat (0.05-2.9 nmol/L) intake. HBOA-glc, 2-HHPAA, HBOA-glcA, 2-HPAA-glcA were inversely correlated to PSA in plasma (p < 0.04). To conclude, BXs in plasma, including metabolites not previously analyzed, were quantified. BX metabolites were significantly higher after rye vs refined wheat consumption. Four BX-related metabolites were inversely associated with PSA, which merits further investigation