Working standards were made by diluting a 2 mM stock solution of the malondialdehyde precursor TEP with 80% ethanol supplemented with 2% of the antioxidant BHT to suppress the decomposition of lipid peroxides during the assay. Working concentrations of 0-50 μM were prepared for the lichens and 0-8 μM for the algae. Lichen thalli were homogenized on ice with 1 ml of deionized water and URMC-099 nmr centrifuged at 16,060 × g for 10 min. Supernatants were frozen at -20°C for NOx analysis, and the pellets resuspended in 500 μl ethanol-BHT. Algae were homogenized directly in

500 μl of ethanol-BHT with glass fragments (approx. 1 mm diameter) and strong vortexing for 30 min. Subsequently, 900

μM of TBA (2.57 × 10-2M), TCA (9.18 × 10-1M), and HCl (3.20 M) working solution was added to each sample and to the standards. The samples and standards were vortexed in a Vortex Labnet NSC 683864 nmr ×100 for 5 min at 3,000 rpm and then placed in a 70°C water bath for 30 min. Afterwards, the samples and standards were vortexed again, cooled on ice, and centrifuged at 10,060 × g for 10 min. The absorbance of supernatants was measured at 532 nm (A 532) in a Spectronic Genesys8 spectrophotometer. The absorbance at 600 nm (A 600) was then measured and this value was subtracted from the A 532 to eliminate the interferences of soluble sugars in the samples [35]. NO end-products determination To estimate NO generation, NO oxidation end-products (nitrate and nitrite) were measured in the soluble fraction of the samples using a GSK458 cell line Skalar autoanalyzer,

model SAN++. The automated determination of nitrate see more and nitrite is based on the cadmium reduction method: the sample is passed through a column containing granulated copper-cadmium to reduce nitrate to nitrite. The nitrite (that originally present plus that obtained from the reduction of nitrate) concentration is determined by its diazotization with sulfanilamide followed by coupling with N-(1-naphthyl)ethylenediamine dihydrochloride to form a highly colored azo dye, the absorbance of which is measured at 540 nm. This is the most commonly used method to analyze NO production and is known as the Griess reaction [23]. Statistics At least three samples for each treatment and each incubation time were prepared. Four assays were carried out on four different days for the lichens and on three different days for the algae. Data were analyzed for significance with Student’s t-test or by ANOVA. Results Bright-field micrographs showing the general anatomy of Ramalina farinacea are presented in Figure 1. The photobiont layer is located in the medulla and is surrounded by dispersed fungal hyphae, which become densely packed in the cortex of the lichen. Figure 1 Anatomy of Ramalina farinacea. Thalli of R.