Sigrid U. Schenk scite author profile

The fatty acid composition of ER, Golgi and peribacteroid membrane (PBM) from root nodules formed on Glycine max after infection with different strains of Bradyrhizobium japonicum has been analysed by gas chromatography. In each plant-microsymbiont combination the fatty acid composition (FAC) of the PBM is distinct from ER and Golgi. The similarity between ER and PBM fatty acid composition is significantly stronger than between Golgi and PBM. In addition the fatty acid composition of all membrane systems in nodules is affected by the microsymbiont strain. Acomparison offour strains of Bradyrhizobium japonicum grown in agar surface culture and isolated as the symbiotic bacteroids reveals a decrease in oleic acid during bacteroid differentiation.-

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β-(3-isoxazolin-5-on-2-yl)-alanine from Pisum: Allelopathic properties and antimycotic bioassay

Schenk

Werner

1991

Phytochemistry

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Plant, Microbial and Soil Factors, Determining Nitrogen Fixation in the Rhizosphere

Werner

Berggold

Jaeger

et al. 1989

J Plant Nutrition & Soil

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A genotype effect on associative (rhizosphere) N2‐fixation was observed with two cultivars of Sorghum bicolor (nutans) with a maximum rate of 8 μmol C2H4 · h−1 · plant−1 in one genotype compared to 0.9 μmol in the other. Characteristics of the high fixing genotype were a reduced transpiration rate, a lower number of stomata and increased root exudate production per gram root dry weight with higher concentration of dicarboxylic acids. The bacterial rhizosphere composition revealed a three times higher number of N2‐fixing bacteria, a tenfold reduction of actinomycetes and a threefold reduction of Arthrobacter associated with the high fixing cultivar compared to the low fixing genotype. From these and other plant rhizospheres two new nitrogen fixing bacteria, Pseudomonas stutzeri and Erwinia herbicola, were characterized. With the N2‐fixing bacteria Azospirillum brasilense and Klebsiella pneumoniae an enhancement of specific nitrogenase activity by aromatic compounds, for example phenolics, the herbicide alachlor and the insecticide carbofuran was demonstrated. An oscillating nitrogenase activity in Azospirillum brasilense under microaerobic conditions was found, resulting from an encystation and deencystation under those conditions. Experiments with wheat roots demonstrated that reduced oxygen tensions, essential for a maximum rhizosphere N2‐fixation, reduced root growth significantly and altered the N‐metabolism of the roots.

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Sigrid U. Schenk

Broad antifungal activity of ?-isoxazolinonyl-alanine, a non-protein amino acid from roots of pea (Pisum sativum L.) seedlings

Fatty acid analysis of four Azospirillum species reveals three groups

Fatty Acid Composition of the Peribacteroid Membrane and the ER in Nodules of Glycine max Varies after Infection by Different Strains of the Microsymbiont Bradyrhizobiumjaponicum

β-(3-isoxazolin-5-on-2-yl)-alanine from Pisum: Allelopathic properties and antimycotic bioassay

Plant, Microbial and Soil Factors, Determining Nitrogen Fixation in the Rhizosphere

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