Slađana Todorović

Effect of nitric oxide - releasing compounds on phytochrome - controlled germination of Empress tree seeds

Using different nitric oxide releasing compounds and appropriate controls we have obtained data strongly suggesting the involvement of nitric oxide in the phytochrome controlled germination of Paulownia tomentosa seeds. Direct detection of nitric oxide, under various experimental conditions, was performed by a spin-trapping technique combined with electron paramagnetic resonance (EPR) spectroscopy. The addition of methylene blue prevented light-induced and NO donors-potentiated germination of P. tomentosa seeds. This inhibition could be completely overcome by addition of gibberellin. The promotive effect of nitrite was pH dependent, maximally pronounced at the pH range where nitrite undergoes dismutation and liberates nitric oxide. Under these conditions, nitrite exerted its efficacy at the same concentrations at which nitric oxide releasing compounds such as sodium nitroprusside (SNP), S-nitroso acetylpenicillamine (SNAP), and 3-morpholinosydnonimine (SIN-1), were the most effective. Likewise, the potentiation of P. tomentosa seed germination could be achieved by chemical reduction of nitrite with Na2S2O4 during which liberation of nitric oxide could be detected.

Activation of antioxidant response element in mouse primary cortical cultures with sesquiterpene lactones isolated from Tanacetum parthenium

Tanacetum parthenium produces biologically active sesquiterpene lactones (SL). Nuclear factor E2-related factor 2 (Nrf2) is a transcription factor known to activate a series of genes termed the antioxidant response element (ARE). Activation of Nrf2/ARE may be useful for the treatment of neurodegenerative disease. In this study we isolated 11 SL from T. parthenium with centrifugal partition chromatography and semipreparative HPLC. Compounds were screened in vitro for their ability to activate the ARE on primary mouse cortical cultures as well as for their toxicity towards the cultures. All SL containing the α-methylene-γ-lactone moiety were able to activate the ARE and cause cellular toxicity. The structure-activity relationship among the SL isolated indicates that the guaianolides were more active and when lacking the endoperoxide functionality less toxic then the germacranolides.

Reverse Transcription of 18S rRNA with Poly(dT)18 and Other Homopolymers

Ribosomal 18S RNA is widely used as a housekeeping gene in expression studies, including end-point PCR, Northern analysis, and real-time experiments. However, there are two disadvantages and two points of error introduction in using 18S rRNA as a reference gene. First, 18S has no poly(A) tail, so it is commonly reverse transcribed with specific primers or random hexamers, independently from poly(dT)-primed transcripts. Secondly, due to its abundance, the 18S cDNA must be extensively diluted to be comparable to the tested genes. In this study, 18S rRNA from five taxonomically diverse plant species, including Physcomitrella patens, Adiantum capillus-veneris, Centaurium erythraea, Arabidopsis thaliana, and Zea mays, was successfully reverse transcribed (RT) using poly(dT)18. As all other homopolymers, including poly(dA)18, poly(dC)18, and poly(dG)18, could serve as RT primers, it was concluded that homopolymers anneal by mispriming at the sites of complementary homopolymeric runs or segments rich in complementary base. Poly(dC)18 was the most efficient as RT primer, and the only one which interfered with subsequent PCR, giving species-specific pattern of products. Poly(dT)-primed RT reactions were less efficient in comparison to specific primer or random hexamer-primed reactions. Homopolymeric priming of 18S in RT reactions is general in terms of RNA origin and the method of RNA isolation and is possibly applicable to other tailless housekeeping genes.

Stimulation of empress tree seed germination by liquid smoke

The germination of Empress tree (Paulownia tomentosa Steud.) seeds is phytochrome-controlled. Liquid smoke could not induce germination in darkness but red light irradiation of liquid smoke imbibed seeds induced a high percentage of germination. Maximum germination was achieved at liquid smoke concentration of 0.1% (v/v) when present during the imbibition phase or during the phase of phytochrome activity. The light requirement of these seeds could be completely substituted by exogenously applied gibberellins. In the presence of liquid smoke, optimal concentrations of GA3, GA4, and GA9 necessary for inducing germination were several times lower than in the controls, while that of GA7 was equally active when applied at a concentration one order of magnitude lower. The inhibitory effect of the applied growth retardants was strongly reduced and liquid smoke, in the presence of retardants, allowed light-induced germination, if applied simultaneously or after retardants treatment.

Herbicide Phosphinothricin Causes Direct Stimulation Hormesis

Herbicide phosphinothricin (PPT) inhibits glutamine synthetase (GS), a key enzyme in nitrogen assimilation, thus causing ammonia accumulation, glutamine depletion and eventually plant death. However, the growth response of Lotus corniculatus L. plants immersed in solutions with a broad range of PPT concentrations is biphasic, with pronounced stimulating effect on biomass production at concentrations ≤ 50 μM and growth inhibition at higher concentrations. The growth stimulation at low PPT concentrations is a result of activation of chloroplastic isoform GS2, while the growth suppression is caused by inhibition of both cytosolic GS1 and GS2 at higher PPT concentrations. Since the results are obtained in cell-free system (e.g. protein extracts), to which the principles of homeostasis are not applicable, this PPT effect is an unambiguous example of direct stimulation hormesis. A detailed molecular mechanism of concentration-dependent interaction of both PPT and a related GS inhibitor, methionine sulfoximine, with GS holoenzymes is proposed. The mechanism is in concurrence with all experimental and literature data.