Furthermore, increases in cellular zinc status were associated with elevated levels of reactive oxygen species and senescence, as evidenced by morphological and histochemical changes in cells treated with 2.5 or 10 mu M resveratrol, especially in ZA and ZS Cell Cycle inhibitor cells. Taken together,
the interaction between resveratrol and zinc in NHPrE cells increases total cellular zinc and intracellular free labile zinc status and, subsequently, reactive oxygen species production and senescence.”
“In Drosophila, sexual differentian, physiology, and behaviour are thought to be mediated by numerous male- and female-specific effector genes whose expression is controlled by sex-specifically expressed nanscriptional regulators. One such downstream effector gene, sex-specific enzyme 1 (sxe1, cyp4d2l), has been identified in a screen for genes with sex-biased expression in the head. Sxe1 was also Autophagy inhibitor in vitro identified in another screen as a circadian regulated
gene. Here, we analyzed the spatial and temporal regulation of Sxe! and identified a function for this gene i male courtship. We show that male-specific transcriptional regulator DSXM and the clock genes are necessary for cycling of Sxe1 m RNA during the diurnal cycle. Similar to sxe1 mRNA, expression of SXE1 protein oscillates in a diurnal fashion, with highest protein levels occurring arround midnight. SXE1 protein expression is restricted to nonneuronal cells assoicated with diverse sensory
bristles of both the chemo-and mechanosensory systems. Suppression or knockout of sxe1 significantly reduces mating success throughout the diurnal cycle. Finally, the metabolomic profile of wild-type and sxe1 mutant males reveald that sxe1 likely functions as fauy acid omega-hydroxylase, suggesting that male courtship and mating success is ediated by small compounds generated by this enzyme.”
“Smoke is an important abiotic cue for plant regeneration in postfire landscapes. Karrikins are a class of compounds discovered in smoke that promote seed germination and influence early development of many plants by an unknown mechanism. A genetic screen for karrikin-insensitive mutants in Arabidopsis thaliana Selleck LBH589 revealed that karrikin signaling requires the F-box protein MAX2, which also mediates responses to the structurally-related strigolactone family of phytohormones. Karrikins and the synthetic strigolactone GR24 trigger similar effects on seed germination, seedling photomorphogenesis, and expression of a small set of genes during these developmental stages. Karrikins also repress MAX4 and IAA1 transcripts, which show negative feedback regulation by strigolactone. We demonstrate that all of these common responses are abolished in max2 mutants. Unlike strigolactones, however, karrikins do not inhibit shoot branching in Arabidopsis or pea, indicating that plants can distinguish between these signals.