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Small heat shock proteins are involved in stress tolerance. We previously isolated and characterized a rice cDNA clone, Oshsp26, encoding a chloroplast-localized small heat shock protein that is expressed following oxidative or heat stress. In this study, we transferred this gene to tall fescue plants by an Agrobacterium-mediated transformation system. The integration and expression of the transgene was confirmed by PCR, Southern, northern, and immunoblot analyzes. Compared to the control plants, the transgenic plants had significantly lower electrolyte leakage and accumulation of thiobarbituric acid-reactive substances when exposed to heat or methyl viologen. The photochemical efficiency of photosystem II (PSII) (Fv/Fm) in the transgenic tall fescue plants was higher than that in the control plants during heat stress (42°C). These results suggest that the OsHSP26 protein plays an important role in the protection of PSII during heat and oxidative stress in vivo.  相似文献   

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氧化胁迫对水稻幼苗抗冷力的影响   总被引:17,自引:0,他引:17  
利用H2O2和甲基紫精(MV)对水稻幼苗作三种不同程度的氧化胁迫预处理。结果表明:轻度氧化胁迫预处理(10umol/LH2O2或10umol/LMV处理4h)提高了水稻幼苗的抗冷力,严重氧化胁迫预处理(10umol/LH2O2或10umol/LMV分别处理16h和40h)则削弱水稻幼苗的抗冷力。氧化胁迫预处理刺激了水稻幼苗叶片抗氧化酶(SOD,CAT,POX和APX)的活性。经冷胁迫后,不同预处理苗的叶片抗氧化酶活性、膜脂过氧化和膜结构的变化趋势不同:轻度氧化胁迫预处理使幼苗仍保持较高的抗氧化酶活性,减轻了由冷胁迫引起的膜脂过氧化和细胞膜的渗漏程度,而严重氧化胁迫预处理则相反。因此,水稻幼苗对氧化胁迫感知并作出反应的机制(氧化应激机制)在水稻幼苗对低温反应和适应过程中起着很重要的调节作用。  相似文献   

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Small heat-shock proteins (sHSP) are the most abundant heat stress-induced proteins in plants. In rice, there are at least seven members of class-I sHSP. A 1.6-kb DNA fragment was isolated from the EcoRI-digested rice genomic library probed with the cDNA pTS1 encoding a 16.9-kDa class-I sHSP. This fragment was composed of 365-bp tandem direct repeats (DRs) and 441-bp near perfect long terminal inverted repeats (LTIRs). The DRs contain 123-bp regions with 99% nucleotide identity to the 5' coding region of the Oshsp16.9B gene. Two putative pseudogenes were deduced from the DRs. Using the LTIR as a specific probe, Southern-blotting analysis showed that there was a single copy of this 1.6-kb DNA fragment in the rice genome. By genomic walking, we located this fragment in proximity 5'-upstream of the Oshsp16.9B gene that was mapped on chromosome 1 with other two class-I sHSP genes, Oshsp16.9A and Oshsp16.9C. By comparative analysis of the nucleotide sequences of class-I sHSP genes clustered on chromosome 1 between Tainung No. 67 and Nipponbare cultivars, we confirmed our mapping results of these genes and only the promoter region of Oshsp16.9B was different. However, we found that the expression profile of Oshsp16.9B upon different heat stresses in Nipponbare was not significantly different relative to that in Tainung No. 67.  相似文献   

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Changes in gene expression, by application of H2O2, O2°generating agents (methyl viologen, digitonin) and gamma irradiation to tomato suspension cultures, were investigated and compared to the well-described heat shock response. Two-dimensional gel protein mapping analyses gave the first indication that at least small heat shock proteins (smHSP) accumulated in response to application of H2O2 and gamma irradiation, but not to O2° generating agents. While some proteins seemed to be induced specifically by each treatment, only part of the heat shock response was observed. On the basis of Northern hybridization experiments performed with four heterologous cDNA, corresponding to classes I–IV of pea smHSP, it could be concluded that significant amounts of class I and II smHSP mRNA are induced by H2O2 and by irradiation. Taken together, these results demonstrate that in plants some HSP genes are inducible by oxidative stresses, as in micro-organisms and other eukaryotic cells. HSP22, the main stress protein that accumulates following H2O2 action or gamma irradiation, was also purified. Sequence homology of amino terminal and internal sequences, and immunoreactivity with Chenopodium rubrum mitochondrial smHSP antibody, indicated that the protein belongs to the recently discovered class of plant mitochondrial smHSP. Heat shock or a mild H2O2 pretreatment was also shown to lead to plant cell protection against oxidative injury. Therefore, the synthesis of these stress proteins can be considered as an adaptive mechanism in which mitochondrial protection could be essential.  相似文献   

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While growing in the field, plants may encounter several different forms of abiotic stress simultaneously, rather than a single stress. In this study, we investigated the effects of calcium (Ca) deficiency on cadmium (Cd) toxicity in rice seedlings. Calcium deficiency alone decreased the length, fresh and dry weight, and the Ca concentration in shoots and roots. Also, the content of glutathione (GSH), the ratio of GSH/oxidized glutathione, and the activity of catalase were lower in Ca-deficient leaves compared to control leaves. Exogenous Cd caused a decrease in the contents of chlorophyll and protein, and induced oxidative stress. Based on these stress indicators, we found that Ca deficiency enhanced Cd toxicity in rice seedlings. Under exogenous Cd application, internal Cd concentrations were higher in Ca-deficient shoots and roots than in the respective controls. Moreover, we observed that Ca deficiency decreased heat-shock (HS) induced expression of HS protein genes Oshsp17.3, Oshsp17.7, and Oshsp18.0 in leaves thereby weakening the protection system and increasing Cd stress. In conclusion, Ca deficiency enhances Cd toxicity, and Ca may be required for HS response in rice seedlings.  相似文献   

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Imbibitional heat and chilling stress caused disruption of redox-homeostasis and oxidative damage to newly assembled membrane system by aggravating membrane lipid peroxidation and protein oxidation [measured in terms of thiobarbituric acid reactive substances (TBARS), free carbonyl content (C=O groups) and membrane protein thiol level (MPTL)] along with concomitant increase in accumulation of reactive oxygen species (superoxide and hydrogen peroxide) and significant reduction of antioxidative defense (assessed in terms of total thiol content and activities of superoxide dismutase, catalase, ascorbate peroxidase and glutathione reductase) in both the salt sensitive (Ratna) and resistant (SR 26B) germinating tissues of rice cultivars. When compared, salt resistant cultivar SR 26B found to suffer significantly less oxidative membrane damage as compared to salt sensitive cultivar Ratna. Treatment with low titer of hydrogen peroxide caused significant reversal in oxidative damages to the newly assembled membrane system imposed by imbibitional heat and chilling stress (evident from the data of TBARS, C=O, MPTL, ROS accumulation, membrane permeability status, membrane injury index and oxidative stress index) in seedlings of both the cultivars of rice (Ratna and SR 26B). Imbibitional H2O2 pretreatment also caused up-regulation of antioxidative defense (activities of superoxide dismutase, catalase, ascorbate peroxidase, glutathione reductase and total thiol content) in the heat and chilling stress-raised seedlings of experimental rice cultivars. When the parameters of early growth performances were assessed (in terms of relative growth index, biomass accumulation and vigor index), it clearly exhibited significant improvement of early growth performances of both the rice cultivars. Better response towards H2O2-mediated acclamatory performances and restoration of redox- homeostasis under extremes of temperature were noticed in salt sensitive rice cultivar Ratna compared to salt resistant SR 26B. Taken as a whole, the result suggests the significance of the role of ‘inductive pulse’ of H2O2 in acclimatizing adverse temperature stress by restoration of redox-homeostasis and mitigation of oxidative membrane protein and lipid damages during the recovery phase of post-germination event.  相似文献   

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A cDNA encoding putative phospholipid hydroperoxide glutathione peroxidase (PHGPX) was isolated from rice using rapid amplification of cDNA ends. This cDNA, designated ricPHGPX, includes an open reading frame encoding a protein of 169 amino acids which shares about 60% and 50% amino acid sequence identity with plant and mammalian PHGPXs, respectively. The gene is expressed at a relative high level in flag leaves and the expression can be markedly induced by oxidative stress, suggesting that the product of the gene plays a key role in defense against oxidative damage in rice.  相似文献   

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