草酸对氧化胁迫下水稻叶片中核酮糖—1,5—二磷酸羧化酶／加氧 …

以杂交稻（汕优６３）为试验材料,在木村Ｂ营养液中培养至三叶期,用草酸５ｍｍｏｌ／Ｌ预处理水稻２ｄ,再处以氧化胁迫（用０．１ｍｍｏｌ／Ｌ浓度的活性氧诱发剂甲基紫精处理）。结果表明：ＭＶ诱发的氧化胁迫下,Ｒｕｂｉｓｃｏ及其它可溶性蛋白快速降解。草酸预处理可明显缓解Ｒｕｂｉｓｃｏ及其它可溶性蛋白的降解,降解速率分别降低１／３和１／２左右,植株经草酸处理后其叶片中几种抗氧化酶如ＡｓＡ－ＰＯＤ、ＳＯＤ、ＣＡ     

渗透胁迫下水稻幼苗中叶绿素降解的活性氧损伤作用

水稻（Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．）幼苗在渗透胁迫下,随着胁迫强度的增加及时间的延长,Ｃｈｌ降解加剧,活性氧Ｏ－·２ 、Ｈ２Ｏ２ 及脂质过氧化产物丙二醛（ＭＤＡ）含量明显增加,抗氧化剂抗坏血酸（ＡｓＡ）还原型谷胱甘肽（ＧＳＨ）及胡萝卜素（ＣＡＲ）含量显著降低,叶绿素蛋白复合体（Ｃｈｌ－Ｐｒｏ）结合度松弛． Ｃｈｌ含量的降低和Ｏ－·２ 、Ｈ２Ｏ２ 及ＭＤＡ 含量呈显著的负相关,与ＡｓＡ、ＧＳＨ及ＣＡＲ含量的下降呈良好的正相关性．ＡｓＡ、α－生育酚（ＶｉｔＥ）及甘露醇预处理可使胁迫诱导的ＭＤＡ 增多及Ｃｈｌ降解延缓,而Ｆｅ２＋ 、Ｈ２Ｏ２ 及Ｆｅｎｔｏｎ 反应则刺激ＭＤＡ 增加． Ｆｅｎｔｏｎ 反应可加速Ｃｈｌ降解． 渗透胁迫下水稻幼苗Ｃｈｌ的降解可能主要是由Ｏ－·２ 和Ｈ２Ｏ２ 的代谢产物·ＯＨ氧化损伤之故     

低温下水稻幼苗叶片细胞膜膜脂过氧化和膜磷脂脱酯化反应

水稻幼苗遭遇冷胁迫（１℃,光照强度１５０μｍｏｌ·ｍ－２·ｓ－１）２ｄ,其叶片丙二醛（ＭＤＡ）含量明显增加,酸性磷酸酯酶活性也增加,同时无机磷含量也增加。３０ｍｍｏｌ／Ｌ的ＣａＣｌ２浸泡种子１ｄ则削弱了冷胁迫的这种作用。Ｈ２Ｏ２和甲基紫精（ＭＶ）均有刺激幼苗叶片和离体根质膜酸性磷酸酯酶活性的作用。     

不同耐旱性水稻幼苗对氧化胁迫的应用

干旱条件下水稻（Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．）耐旱性较强的“湘中籼２号”比耐旱性较弱的“湘早籼１２号”Ｏ＾７２的产生速率低。百草枯（０．０１ｍｍｏｌ／Ｌ）和Ｈ２Ｏ２（１０ ｍｍｏｌ／Ｌ）处理进干旱对水稻幼苗的伤害,但耐早性较强的品种伤害较轻。单独用百草枯处理后,耐旱性较强的品种比耐旱性较弱的品种能更大幅度地提高超氧化经酶的过氧化物酶的活性;而Ｈ２Ｏ２处理后耐旱性较强的品种能提高过氧化氯酶活性。这     

冷锻炼对水稻和黄瓜幼苗SOD,GR活性及GSH,AsA含量的影响

水稻（Ｏｒｙｚａ ｓａｔｉｖａ Ｌ．）和黄瓜（Ｃｕｃｕｍ ｉｓｍ ｅｌｏ Ｌ．）幼苗在昼夜温度为１５ ℃／１０ ℃、白天光照１２ ｈ,光强为２５０ μｍ ｏｌ·ｍ － ２·ｓ－ １的条件下锻炼３ ｄ,明显地提高幼苗叶片中膜保护酶——超氧物歧化酶（ＳＯＤ）、谷胱甘肽还原酶（ＧＲ）活性和内源抗氧化剂——还原型谷胱甘肽（ＧＳＨ）、抗坏血酸（ＡｓＡ）的含量。经冷锻炼和未锻炼的幼苗移置４ ℃、光强为２５０ μｍ ｏｌ·ｍ － ２·ｓ－ １下胁迫处理２ ｄ,未锻炼苗叶片中ＳＯＤ、ＧＲ 活性和ＧＳＨ、ＡｓＡ 含量明显下降,而经冷锻炼的苗则相对比较稳定。从脂质过氧化产物——丙二醛（ＭＤＡ）含量及幼苗的存活率亦看出：冷锻炼苗具有较低的脂质过氧化水平和较高的幼苗存活率。由此认为：冷锻炼能提高水稻和黄瓜幼苗细胞膜的稳定性,从而增强了耐低温光胁迫的能力     

氧化胁迫下稻苗体内积累的脯氨酸的抗氧化作用

水稻幼苗在外源ＯＨ和Ｏ２氧化胁迫下,体内脯氨酸明显积累,而Ｏ２和Ｈ２Ｏ２处理对稻苗体内脯氨酸含量无影响。强光亦能诱导稻苗体内脯氨酸积累。脯氨酸预处理则显示抑制ＯＨ、Ｏ２及强光所诱导的稻苗膜脂过氧化作用。在活性氧的产生／检测系统中,脯氨酸对ＯＨ和Ｏ２所引发反应有明显的竞争效应,但对Ｏ２和Ｈ２Ｏ２的作用没有影响。这些都表明,氧化胁迫下稻苗体内积累泊脯氨具有抗氧化作用;脯氨酸对活性氧的清除有一定的专一性     

水分胁迫下湖北海棠根系脂氧合酶活性与ABA积累的关系

采用无细胞体系（ｃｅｌｌ－ｆｒｅｅ ｓｙｓｔｓｍ）及非离体根,研究了湖北海棠（Ｍａｌｕｓ ｈｕｐｅｈｅｎｓｉｓ（Ｐａｍｐａｎ．）Ｒｅｈｄ．）实生幼苗根中脂氧合酶（ＬＯＸ）活性和脱落酸（ＡＢＡ）生物合成及胁迫诱导ＡＢＡ积累的关系。结果表明,水分胁迫（３０％ＰＥＧ处理或０．６ｍｏｌ／Ｌ甘露醇处理）及盐胁迫（０．２ｍｏｌ／ＬＮａＣｌ）诱导ＡＢＡ积累的同时,ＬＯＸ活性也上升,两者呈一致关系。ＬＯＸ专一抑制     

抗旱性不同的两个大豆品种对外源H2O2的响应

两个品种的大豆叶圆片经１０＾－４ｍｏｌ／Ｌ和１０＾－３ｍｏｌ／Ｌ的Ｈ２Ｏ２处理１２ｈ后,超氧化岐化酶（ＳＯＤ）、过氧化氢酶（ＣＡＴ）与谷胱甘肽还原酶（ＧＲ）活性明显增加,但１０＾－２ｍｏｌ／Ｌ的Ｈ２Ｏ２处理却使这些酶活性降低。抗旱性较强的大豆品种小粒豆１号较抗旱性较弱的鲁豆４号能维持较高的叶绿素含量和较高的ＳＯＤ、ＣＡＴ及ＧＲ活性,对Ｈ２Ｏ２的抗性较强。５０μｍｏｌ／Ｌ的亚胺环已酮（ＣＨＭ）能消除     

渗透胁迫下稻苗中铁催化的膜脂过氧化作用

在－０．７ＭＰａ渗透胁迫下,水稻幼苗体内和Ｈ２Ｏ２大量产生,Ｆｅ２＋积累,膜脂过氧化作用加剧。水稻幼苗体内Ｆｅ２＋含量与膜脂过氧化产物ＭＤＡ含量呈极显著的正相关。外源Ｆｅ２＋、Ｆｅ３＋、Ｈ２Ｏ２、Ｆｅ２＋＋Ｈ２Ｏ２、ＤＤＴＣ均能刺激膜脂过氧化作用,而铁离子的螯合剂ＤＴＰＡ则有缓解作用。ＯＨ的清除剂苯甲酸钠和甘露醇能明显地抑制渗透胁迫下Ｆｅ２＋催化的膜脂过氧化作用。这都表明渗透胁迫下水稻幼苗体内铁诱导的膜脂过氧化作用主要是由于其催化Ｆｅｎｔｏｎ型Ｈａｂｅｒ－Ｗｅｉｓｓ反应形成ＯＨ所致。     

外源胆固醇对水稻幼苗膜脂组成及抗冷力的影响

分析了水稻幼苗低温胁迫前后膜脂和膜脂脂肪酸含量变化。结果表明,经胆固醇处理的幼苗叶和根细胞膜脂中ＬＰＣ、ＰＳ和ＰＧ含量比对照下降少,ＰＡ含量增加也较少。胆固醇处理的幼苗叶和根棕榈酸（１６：０）增加量和亚麻酸（１８：３）与ＩＵＦＡ减少量均明显比对照少。试验结果证明,水稻幼苗叶片和根系的抗冷力与ＰＡ含量和脂肪酸不饱和程度变化有密切关系。外源胆固醇处理水稻幼苗能阻止低温对膜脂的破坏作用,提高幼苗抗低温胁迫能力。     

甲基紫精对水稻幼苗根细胞膜微囊Ca^2＋-ATP酶活性的影响

10μmol／L甲基紫精(MV)预处理水稻幼苗可明显提高其抗冷力,但这种功效可被钙的螯合剂EGTA(10 mmol／L)和钙调素(CaM)的抑制剂氯丙嗪(CPZ,0．5mmol／L)所抑制。MV预处理提高了幼苗质膜、液泡膜Ca^2 -ATP酶活性,同时也有提高质膜Fe(CN)6^3-还原速率和这些活性的冷适应性,但这些效果均可被EGTA和CPZ所抑制。离体条件下,膜微囊的Ca^2 -ATP酶活性对H2O2、O2^-、-0H敏感。结果显示,MV预处理提高幼苗的抗冷力可能是通过钙信使介导起作用的,钙信使或CaM可能刺激了质膜、液泡膜Ca^2 -ATP酶活性;而该预处理有增加质膜、液泡膜Ca^2 -ATP酶的冷稳定性则可能与该处理有提高细胞抗氧化能力、稳定冷胁迫下细胞膜系统结构有关。     

Effect of intermediates on ascorbic acid and oxalate biosynthesis of rice and in relation to its stress resistance.

Rice (Oryza sativa L.) roots were fed with L-ascorbic acid (AsA) and its putative precursors to observe AsA and oxalate concentrations and the resistance of rice to chilling, water stress, and Al toxicity. AsA concentration was significantly enhanced in both shoots and roots of rice seedlings by feeding with D-glucose or L-galactono-gamma-lactone. AsA or L-galactono-gamma-lactone treatment increased accumulation of oxalate mainly in soluble form, while these treatments decreased electrolyte leakage from root cells, H2O2 and lipid peroxidation level in rice seedlings subjected to chilling, water stress, and Al toxicity. They also alleviated the inhibition on root growth by Al. These results indicated that AsA and its immediate precursor protected plants against the oxidative damages induced by various stresses. However, 0.5 mM AsA and 10 mM L-galactono-gamma-lactone treatment had no significant effect on superoxide dismutase and catalase activity and ascorbate-peroxidase activities. Enhanced Al resistance caused by AsA and L-galactono-gamma-lactone may possibly be resulted from increased level of oxalate, which acts as metal chelator. Thus it is proposed that manipulation of AsA and oxalate biosynthesis through enhancement of L-galactono-gamma-lactone level in plants could be a strategy for improving abiotic stress tolerance.     

Differential responses of antioxidative system to chilling and drought in four rice cultivars differing in sensitivity

Responses of antioxidative defense systems to chilling and drought stresses were comparatively studied in four cultivars of rice (Oryza sativa L.) differing in sensitivity, two of them (Xiangnuo no. 1 and Zimanuo) are tolerant to chilling but sensitive to drought and the other two (Xiangzhongxian no. 2 and IR50) are tolerant to drought but sensitive to chilling. The seedlings of rice were transferred into growth chamber for 5 d at 8 degrees C as chilling treatment, or at 28 degrees C as control, or at 28 degrees C but cultured in 23% PEG-6000 solution as drought stress treatment. Under drought stress the elevated levels of electrolyte leakage, contents of H(2)O(2) and total thiobarbituric acid-reacting substances (TBARS) in Xiangzhongxian no. 2 and IR50 are lower than those in Xiangnuo no. 1 and Zimanuo. On the contrary, Xiangnuo no. 1 and Zimanuo have much lower level of electrolyte leakage, H(2)O(2) and TBARS than Xiangzhongxian no. 2 and IR50 under chilling stress. Activities of antioxidant enzymes (superoxide dismutase (SOD), catalase, and ascorbate-peroxidase (APX)) and contents of antioxidants (ascorbaic acid and reduced glutathione) were measured during the stress treatments. All of them were enhanced greatly until 3 d after drought stress in the two drought-tolerant cultivars, or after chilling stress in the two chilling-tolerant cultivars. They all were decreased at 5 d after stress treatments. On the other hand, activities of antioxidant enzymes and contents of antioxidants were decreased greatly in the drought-sensitive cultivars after drought stress, or in the chilling-sensitive cultivars after chilling stress. The results indicated that tolerance to drought or chilling in rice is well associated with the enhanced capacity of antioxidative system under drought or chilling condition, and that the sensitivity of rice to drought or chilling is linear correlated to the decreased capacity of antioxidative system.     

Effect of exogenous H2O2 on antioxidant enzymes of Brassica juncea L. seedlings in relation to 24-epibrassinolide under chilling stress

Hydrogen peroxide is most stable molecule among reactive oxygen species, which play a vital role in growth and development of plant as signaling molecule at low concentration in response to various abiotic and biotic stresses. Exogenous application of H2O2 is known to induce chilling tolerance in plants. Brassinosteroids are plant steroid hormones known for their anti-stress properties. In this study, effect of exogenous H2O2 on antioxidant defense system of Brassica juncea L. seedlings was investigated in 24-epibrassinolide (24-EBL) treated and untreated seedlings under chilling stress. The surface sterilized seeds of B. juncea L. were germinated in petriplates containing different concentrations of H2O2 alone and in combination with 10(-8) M 24-EBL. Chilling treatment (4 degrees C) was given to 10-days old seedlings grown in different treatments for 6 h daily up to 3 days. 24 h recovery period was given to chilling treated seedlings by placing at 25 degrees C + 2 degrees C and harvested for antioxidant enzymes on 14th day after sowing (DAS). Treatment of 24-EBL in combination with H2O2 (15 and 20 mM) helped in reducing the toxicity of seed and seedlings due to H2O2 exposure on their germination rate, shoot and root length respectively. 24-EBL treatment at seed and seedling stage helped in alleviating the toxic effect of H2O2 through antioxidant defense system by increasing the activities of various enzymes involved in antioxidant defense system such as catalase (CAT, E.C. 1.11.1.6), ascorbate peroxidase (APOX, E.C. 1.11.1.11), and superoxide dismutase (SOD, E.C. 1.15.1.1). In conclusion, exogenous pretreatment of H2O2 to seeds of B. juncea L. adapted the seedlings to tolerate chilling stress, which was further ameliorated in combination of H2O2 with 24-EBL.     

Acclimation,Hydrogen Peroxide,and Abscisic Acid Protect Mitochondria against Irreversible Chilling Injury in Maize Seedlings

Our previous results indicated that 3-d-old dark-grown chilling-sensitive maize (Zea mays L.) seedlings did not survive 7 d of 4[deg]C chilling stress, but 69% of them survived similar stress when the seedlings were either preexposed to 14[deg]C for 3 d or pretreated with 0.1 mM H2O2 for 4 h at 27[deg]C (T.K. Prasad, M.D. Anderson, B.A. Martin, C.R. Stewart [1994] Plant Cell 6: 65-74) or 1 mM abscisic acid (ABA) for 24 h at 27[deg]C (M.D. Anderson, T.K. Prasad, B.A. Martin, C.R. Stewart [1994] Plant Physiol 105: 331-339). We discovered that chilling imposed oxidative stress on the seedlings. Since H2O2 accumulated during the periods of both acclimation and nonacclimation, we concluded that H2O2 had dual effects at low temperature: (a) During acclimation, its early transient accumulation signals the induction of antioxidant enzymes such as catalase 3 and peroxidase to scavenge H2O2; and (b) at 4[deg]C in nonacclimated seedlings, it accumulates to damaging levels in the tissues because of low levels of these and perhaps other antioxidant enzymes. Three-day-old seedlings pretreated with H2O2 (a mild oxidative stress) or ABA showed induced chilling tolerance. In the present study, we investigated whether mitochondria are a target for chilling-induced oxidative stress and, if so, what differences do acclimation, H2O2, or ABA make to protect mitochondria from irreversible chilling injury. The results indicated that chilling, in general, impairs respiratory activity, the cytochrome pathway of electron transport, and ATPase activity regardless of the treatment. In pretreated seedlings, the activities of catalase 3 and peroxidase in the mitochondria increased severalfold compared with control and nonacclimated seedlings. The increases in these antioxidant enzymes imply that mitochondria are under oxidative stress and such increases could initiate a protective mechanism in the mitochondria. Mitochondrial respiration is partially cyanide resistant during chilling stress and also after the 1st d of recovery. Upon further recovery over 3 d, in contrast to nonacclimated seedlings, the mitochondria of acclimation-, H2O2-, and ABA-treated seedlings showed the following recovery features. (a) The mitochondrial respiration changed from a cyanide-resistant to a cyanide-sensitive cytochrome pathway, (b) cytochrome oxidase activity recovered to control levels, (c) the ability of mitochondria to generate ATP was regained, and (d) the antioxidant enzyme activities remained at or above control levels. Based on these results, we conclude that chilling impairs mitochondrial function and that chilling-induced oxidative stress seems to be a factor, at least in part, for causing possible irreversible damage to the mitochondrial membrance components. Acclimation, H2O2, and ABA provide a protective mechanism by inducing antioxidant enzymes to protect mitochondria from irreversible oxidative damage that is absent in nonacclimated seedlings. Therefore, we conclude that the ability of the seedlings to recover from chilling injury is, at least in part, due to the ability of the mitochondria to resume normal function.     

Changes in Isozyme Profiles of Catalase,Peroxidase, and Glutathione Reductase during Acclimation to Chilling in Mesocotyls of Maize Seedlings

The response of antioxidants to acclimation and chilling in various tissues of dark-grown maize (Zea mays L.) seedlings was examined in relation to chilling tolerance and protection from chilling-induced oxidative stress. Chilling caused an accumulation of H2O2 in both the coleoptile + leaf and the mesocotyl (but not roots), and acclimation prevented this accumulation. None of the antioxidant enzymes were significantly affected by acclimation or chilling in the coleoptile + leaf or root. However, elevated levels of glutathione in acclimated seedlings may contribute to an enhanced ability to scavenge H2O2 in the coleoptile + leaf. In the mesocotyl (visibly most susceptible to chilling), catalase3 was elevated in acclimated seedlings and may represent the first line of defense from mitochondria-generated H2O2. Nine of the most prominent peroxidase isozymes were induced by acclimation, two of which were located in the cell wall, suggesting a role in lignification. Lignin content was elevated in mesocotyls of acclimated seedlings, likely improving the mechanical strength of the mesocotyl. One cytosolic glutathione reductase isozyme was greatly decreased in acclimated seedlings, whereas two others were elevated, possibly resulting in improved effectiveness of the enzyme at low temperature. When taken together, these responses to acclimation illustrate the potential ways in which chilling tolerance may be improved in preemergent maize seedlings.     

外源H2O2对水稻幼苗抗寒性的调节作用

在常温下用不同浓度的外源H2O2(0～20 mmol·L-1)预处理水稻幼苗,再进行12 h 6℃低温胁迫,根据幼苗相对含水量和质膜相对透性筛选最佳外源H2O2处理浓度,并分析最佳外源H2O2浓度下幼苗的渗透调节物质和活性氧相关指标的变化.结果表明:(1)0～8 mmol·L-1 H2O2预处理可以增加水稻幼苗的相对含水量,降低其质膜相对透性,并以4 mmol·L-1 H2O2的效果最佳.(2)低温胁迫后,与对照组相比,4 mmol·L-1外源H2O2预处理降低了水稻幼苗萎蔫程度,并使其总呼吸速率、交替途径容量都有增加,同时还抑制了丙二醛的含量,增加了可溶性糖、可溶性蛋白质和脯氨酸的含量.(3)外源H2O2预处理对水稻幼苗的内源H2O2含量以及O(-)/(·)2产生速率没有显著影响.研究发现,外源H2O2可以通过提高呼吸速率、降低脂质过氧化程度、增加碳氮代谢来有效增强水稻幼苗的抗寒性,它可能以一种独立于内源活性氧系统之外的方式发挥作用.     

过表达OsCatC基因水稻的获得及其耐盐性机理分析

过氧化氢酶C(Catalase C,CatC)作为重要的抗氧化酶,在水稻发育和胁迫响应方面起重要作用。为了探究CatC在盐胁迫响应中的功能及其作用机制,该研究构建了OsCatC过表达转基因水稻,并比较了其耐盐性和相关抗逆生理指标的变化。结果表明:(1)成功构建过量表达载体pCUbi1390-OsCatC-Flag,并经农杆菌介导的愈伤组织转化获得了30个独立转基因株系(T0),Western blot鉴定T1代幼苗共获得2个OsCatC过表达株系(OE-10、OE-18);qRT-PCR分析发现,OE-10和OE-18株系的OsCatC转录水平显著高于野生型(WT),证明OsCatC基因已成功过表达于转基因株系(OE-10、OE-18)中,且能正常翻译为融合蛋白CatC-Flag。(2)正常水培条件下,OE-10和OE-18与WT的水稻幼苗长势无明显差异,200 mmol·L-1 NaCl处理7 d后再恢复水培10 d时,OE-10和OE-18幼苗的存活率为20%~25%,而WT幼苗绝大部分则干枯死亡,存活率仅为5%左右。(3)与WT相比,OsCatC过表达水稻(OE-10和OE-18)幼苗的耐盐性显著增强,其盐胁迫下的相对电导率、丙二醛和H₂O₂含量显著降低,过氧化氢酶活性显著升高;4μmol·L^-1甲基紫精(MV)处理7 d后,OE-10和OE-18生长受抑制程度显著小于WT,且幼苗的长度均显著大于WT,表现出较强的氧化胁迫耐受性。研究发现,CatC主要通过降解盐胁迫下过量积累的H₂O₂,减轻氧化损伤,从而提高水稻的耐盐性,证明过表达OsCatC能显著提高水稻对盐胁迫的耐受性,且OsCatC是一个非常好的水稻耐盐候选基因。     

The role of salicylic acid in response of two rice cultivars to chilling stress

Two rice (Oryza sativa L.) cultivars differing in chilling sensitivity, Changbaijiu (chilling-tolerant) and Zhongjian (chilling-sensitive) were pre-treated with 0.5, 1.0 and 2.0 mM salicylic acid (SA) for 24 h before chilling at 5°C for 1 d. Chilling induced SA accumulation, particularly conjugated SA in both leaves and roots of the two rice cultivars. After SA administration, SA accumulated in the roots of both cultivars at a concentration-dependent manner, whereas only a slight increase was observed in their leaves. Conjugated SA accounted for most of the increase. The beneficial effect of SA treatment on protecting rice seedlings from chilling injury was not observed at any concentration in either cultivar. Pre-treatment with SA even decreased their chilling tolerance confirmed by increased electrolyte leakage and lipid peroxidation. Further, most of the activities of antioxidant enzymes decreased or remained unchanged in leaves and roots of SA pre-treated seedlings after chilling. These results implied that down-regulation of antioxidant defence might be involved in the reduction of chilling tolerance in SA-pre-treated plants.