e test was based on a Y-maze with two arms, each containing Petri dishes with cotton wool soaked with 200 ml methanol, 1 ml cis-3-Hexen-1-ol and MedChemExpress RU 58841 methyl jasmonate or 200 ml of distilled water. Ethylene was obtained by reacting 10 M KOH with ethephon. Air drawn by a fan is conducted through the left and right odor Construction of SSH cDNA libraries RNA isolation and cDNA preparation. Total RNA was isolated from control and methanol-treated Methanol as a Cross-Kingdom Signal subtracted library and the control-subtracted library were used for virtual northern blotting. Selected plasmids were purified and sequenced using pAl16/17 dir and pAl16/17 rev plasmid primers. qRT-PCR Analysis of Transcript Concentrations RNA concentrations were determined using a Nanodrop ND1000 spectrophotometer. All RNA samples had a 260:280 absorbance ratio between 1.9 and 2.1. cDNA was obtained by annealing 2 mg of denatured total RNA with 0.1 mg of random hexamers and 0.1 mg of Oligo-dT. The mixture was then incubated with 200 units of Superscript II reverse transcriptase for 50 min at 43uC. The qRT-PCR was performed using the iCycler iQ real-time PCR detection system. For the detection of target genes, the Eva Green master mix was used according to the manufacturer’s instructions. The thermal profile for EVA Green qRT-PCR included an initial heat-denaturing step at 95uC for 3 min and 45 cycles at 95uC for 15 s, an annealing step for 30 sec and 72uC for 30 sec coupled with fluorescence measurements. Following amplification, the melting curves of the PCR products were monitored from 5595uC to determine the specificity of amplification. Each sample was run in triplicate, and a nontemplate control was added to each run. Target gene mRNA levels were calculated according to the equation proposed by Pfaffl: EtargetDCt target. PCR efficiency was calculated according to the equation E = 10 based on the standard curves. Target gene mRNA levels were corrected using corresponding reference genes. Supporting Information Amino acid sequence alignment of human and mouse CycA2. Amino acid sequences were aligned using the AliBee program. Identical amino acid residues between the human and mouse proteins are marked by asterisks. Methanol as a Cross-Kingdom Signal Acknowledgments PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22187495 The authors are grateful to Irina M. Savchenko for technical assistance. In cancer cells, reactive oxygen species are known to exert a paradoxical effect as they are critical both for cell survival and regulation of cell death. Low concentrations of ROS can promote cancers by transforming normal cells through activation of transcription factors or inhibition of tumor suppressor genes, whereas on the other hand, elevated levels of ROS can also inhibit cancer progression via stimulation of pro-apoptotic signals leading to cell death. Generally, tumor cells have higher levels of ROS than their normal counterparts owing to their increased metabolic activity, mitochondrial dysfunction, peroxisome activity, upregulation of cellular receptor signalling pathways, oncogenic activity as also increased activity of pro-inflammatory cyclooxygenases and lipo-oxygenases. However, this is countered by an effective anti-oxidant system that ensures redox homeostasis. Therefore, it may be extrapolated that anti-cancer compounds capable of inflicting additional oxidative stress may cause cell death. Indeed, there is emerging evidence that increased generation of ROS achievable by chemotherapy and/or radiotherapy can induce