EXPRESSION OF cfos IN THE MEDULLA OBLONGATA AFTER CAROTID BARORECEPTOR ACTIVATION BYELEVATED INTRASINUS PRESSURE AND ADENOSINE

在１４只隔离灌流颈动脉窦区的大鼠,观察了窦内压（ＩＳＰ）升高和灌流腺苷（ａｄｅｎｏｓｉｎｅ,Ａｄｏ）激活压力感受器时延髓内ｃｆｏｓ蛋白的表达。结果显示：在孤束核、最后区、延髓腹外侧头端区和中缝苍白核可见Ｆｏｓ蛋白样免疫阳性反应（ＦＬＩ）神经元分布,且其数量随ＩＳＰ升高而增多。在给定ＩＳＰ下,颈动脉窦内灌流Ａｄｏ,可使上述区域中ＦＬＩ表达明显增多。根据以上结果,得出如下结论：ｃｆｏｓ在压力感受器反射延髓通路中的表达,可由ＩＳＰ增高和灌流Ａｄｏ而增强,表明Ａｄｏ对压力感受器反射有易化作用。     

Iron acquisition by phytosiderophores contributes to cadmium tolerance

Based on the ability of phytosiderophores to chelate other heavy metals besides iron (Fe), phytosiderophores were suggested to prevent graminaceous plants from cadmium (Cd) toxicity. To assess interactions between Cd and phytosiderophore-mediated Fe acquisition, maize (Zea mays) plants were grown hydroponically under limiting Fe supply. Exposure to Cd decreased uptake rates of 59Fe(III)-phytosiderophores and enhanced the expression of the Fe-phytosiderophore transporter gene ZmYS1 in roots as well as the release of the phytosiderophore 2'-deoxymugineic acid (DMA) from roots under Fe deficiency. However, DMA hardly mobilized Cd from soil or from a Cd-loaded resin in comparison to the synthetic chelators diaminetriaminepentaacetic acid and HEDTA. While nano-electrospray-high resolution mass spectrometry revealed the formation of an intact Cd(II)-DMA complex in aqueous solutions, competition studies with Fe(III) and zinc(II) showed that the formed Cd(II)-DMA complex was weak. Unlike HEDTA, DMA did not protect yeast (Saccharomyces cerevisiae) cells from Cd toxicity but improved yeast growth in the presence of Cd when yeast cells expressed ZmYS1. When supplied with Fe-DMA as a Fe source, transgenic Arabidopsis (Arabidopsis thaliana) plants expressing a cauliflower mosaic virus 35S-ZmYS1 gene construct showed less growth depression than wild-type plants in response to Cd. These results indicate that inhibition of ZmYS1-mediated Fe-DMA transport by Cd is not related to Cd-DMA complex formation and that Cd-induced phytosiderophore release cannot protect maize plants from Cd toxicity. Instead, phytosiderophore-mediated Fe acquisition can improve Fe uptake in the presence of Cd and thereby provides an advantage under Cd stress relative to Fe acquisition via ferrous Fe.