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血红素加氧酶/一氧化碳系统参与调节渗透胁迫下小麦种子萌发,涉及一氧化氮途径。

Heme oxygenase/carbon monoxide system participates in regulating wheat seed germination under osmotic stress involving the nitric oxide pathway.

机构信息

College of Life Sciences, Cooperative Demonstration Laboratory of Centrifuge Technique, Nanjing Agricultural University, Nanjing 210095, PR China.

出版信息

J Plant Physiol. 2010 Nov 1;167(16):1371-9. doi: 10.1016/j.jplph.2010.05.021. Epub 2010 Jul 31.

DOI:10.1016/j.jplph.2010.05.021
PMID:20674075
Abstract

To investigate the mechanism and signaling pathway of carbon monoxide (CO) and hematin in alleviating seed germination inhibition and lipid peroxidation, polyethylene glycol-6000 (PEG) was used to mimic osmotic stress in a series of experiments. The results showed that wheat seeds pretreated with a lower dose of PEG (12.5%) showed higher tolerance against osmotic stress as well as the up-regulation of heme oxygenase (HO, EC 1.14.99.3) and decreased lipid peroxidation during recuperation, compared to those with a higher dose of PEG (50%). Exposure of wheat seeds to 25% PEG, HO-1 inhibitor or specific scavenger of nitric oxide (NO) alone differentially led to seed germination inhibition. The PEG-induced inhibitory effects on seed germination were ameliorated by the HO-1 inducer hematin, CO or NO donor. Additionally, hematin was able to markedly boost the HO/CO system. However, the addition of the HO-1 inhibitor or the specific scavenger of NO not only reversed the protective effects conferred by hematin, but also blocked the up-regulation of HO/CO. In addition, hematin-driven NO production in wheat seeds under osmotic stress was confirmed. Based on these results, we conclude that the endogenous HO/CO signal system is required for the alleviation of osmotic stress-induced wheat seed germination inhibition and lipid peroxidation, which might have a possible interaction with NO.

摘要

为了研究一氧化碳(CO)和血红素缓解种子萌发抑制和脂质过氧化的机制和信号通路,使用聚乙二醇-6000(PEG)模拟一系列实验中的渗透胁迫。结果表明,与高剂量 PEG(50%)相比,用较低剂量 PEG(12.5%)预处理的小麦种子在恢复期间表现出更高的耐渗胁迫能力以及血红素加氧酶(HO,EC 1.14.99.3)的上调和脂质过氧化的减少。小麦种子暴露于 25%PEG、HO-1 抑制剂或单独的特定一氧化氮(NO)清除剂会导致种子萌发抑制。HO-1 诱导剂血红素、CO 或 NO 供体可改善 PEG 对种子萌发的抑制作用。此外,血红素能够显著增强 HO/CO 系统。然而,HO-1 抑制剂或特定的 NO 清除剂的添加不仅逆转了血红素赋予的保护作用,而且阻断了 HO/CO 的上调。此外,在渗透胁迫下,血红素驱动小麦种子中的 NO 产生得到了证实。基于这些结果,我们得出结论,内源性 HO/CO 信号系统是缓解渗透胁迫诱导的小麦种子萌发抑制和脂质过氧化所必需的,这可能与 NO 有一定的相互作用。

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