Melanie Nowak scite author profile

The elucidation of the molecular mechanisms of secretion through bacterial protein secretion systems is impeded by a shortage of assays to quantitatively assess secretion kinetics. Also the analysis of the biological role of these secretion systems as well as the identification of inhibitors targeting these systems would greatly benefit from the availability of a simple, quick and quantitative assay to monitor principle secretion and injection into host cells. Here, we present a versatile solution to this need, utilizing the small and very bright NanoLuc luciferase to assess the function of the type III secretion system encoded by Salmonella pathogenicity island 1. Type III secretion substrate–NanoLuc fusions are readily secreted into the culture supernatant, where they can be quantified by luminometry after removal of bacteria. The NanoLuc‐based secretion assay features a very high signal‐to‐noise ratio and sensitivity down to the nanolitre scale. The assay enables monitoring of secretion kinetics and is adaptable to a high throughput screening format in 384‐well microplates. We further developed a split NanoLuc‐based assay that enables the real‐time monitoring of type III secretion‐dependent injection of effector–HiBiT fusions into host cells stably expressing the complementing NanoLuc–LgBiT.

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Transfer of pyrrolizidine alkaloids between living plants: A disregarded source of contaminations

Selmar

Wittke

Wolffersdorff³

et al. 2019

Environmental Pollution

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Interspecific transfer of pyrrolizidine alkaloids: An unconsidered source of contaminations of phytopharmaceuticals and plant derived commodities

Nowak

Wittke

Lederer³

et al. 2016

Food Chemistry

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Horizontal Natural Product Transfer: Intriguing Insights into a Newly Discovered Phenomenon

Selmar

Radwan

Hijazin

et al. 2019

J. Agric. Food Chem.

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Just recently, the "horizontal natural product transfer" was unveiled: alkaloids, which have been leached out from decomposing alkaloidal donor plants, are taken up by the roots of acceptor plants. In the same manner, many other natural products, such as coumarins or stilbenes, are also taken up from the soil. Recent research outlined that alkaloids are transferred also from a living donor plant to plants growing in their vicinity. In the acceptor plants, the imported natural products might be modified by hydroxylation and glucosylation. These insights will strongly impact our understanding of contamination of plantderived commodities as well as plant−plant interactions.

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Cellular distribution of alkaloids and their translocation via phloem and xylem: the importance of compartment pH

Nowak

Selmar

2016

Plant Biol J

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The physico-chemical background of alkaloid allocation within plants is outlined and discussed exemplarily for pyrrolizidine alkaloids (PAs) and nicotine. The trigger for this discourse is the finding that, for example, PAs, which are taken up from the soil, are translocated in the xylem, whereas - when genuinely present in plants - they are allocated as N-oxides via phloem. Special emphasis is put on the impact of different pH values in certain compartments, as this entails significant changes in the relative lipophilic character of alkaloids: tertiary alkaloids diffuse readily through biomembranes, while the corresponding protonated alkaloids are retained in acidic compartments, i.e. vacuoles or xylem. Therefore, this phenomenon, well known as the 'ion trap mechanism', is also relevant for long-distance transport of alkaloids. Any efficient allocation of typical tertiary alkaloids within the phloem can thus be excluded. In contrast, due to their strongly increased hydrophilic properties, alkaloid-N-oxides or quarternary alkaloids cannot diffuse through biomembranes and, consequently, would be retained in the acidic xylem during translocation. The major aim of this paper is to sharpen the mind for the chemical peculiarities of alkaloids and to consider them adequately in forthcoming investigations on allocation of alkaloids.

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Melanie Nowak

A NanoLuc luciferase‐based assay enabling the real‐time analysis of protein secretion and injection by bacterial type III secretion systems

Transfer of pyrrolizidine alkaloids between living plants: A disregarded source of contaminations

Interspecific transfer of pyrrolizidine alkaloids: An unconsidered source of contaminations of phytopharmaceuticals and plant derived commodities

Horizontal Natural Product Transfer: Intriguing Insights into a Newly Discovered Phenomenon

Cellular distribution of alkaloids and their translocation via phloem and xylem: the importance of compartment pH

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