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1.
研究了Ca2+ 对番茄(Lycopersicon esculentum Mill cv. Lichun)黄化幼苗乙烯反应的影响.通过测定不同Ca2+ 浓度条件下番茄黄化幼苗的"三重反应"、内源乙烯释放量、乙烯受体基因NEVER-RIPE(NR)表达量及胞内CaM含量的变化,结果发现,随着培养基中Ca2+ 浓度从0 mmol/L增加到3.8 mmol/L,番茄黄化幼苗的"三重反应"表型明显增强,内源乙烯释放量、NR基因的表达量及胞内CaM的含量都有不同程度的增加;当Ca2+ 浓度由3.8 mmol/L进一步增加到10 mmol/L时,番茄黄化幼苗"三重反应"表型受到抑制,内源乙烯释放量、 NR基因的表达量及胞内CaM的含量都有所下降.因此,Ca2+ 对番茄黄化幼苗"三重反应"的影响与Ca2+ 调节内源乙烯合成和乙烯受体基因的表达有关,而且Ca2+ 可能是通过CaM含量的变化来调节乙烯作用的.  相似文献   

2.
番茄果实中乙烯与多聚半乳糖醛酸酶的关系   总被引:6,自引:0,他引:6  
乙烯与多聚半乳糖醛酸酶(PG)都是果实成熟过程中关键的调节因子.一方面,在有乙烯合成缺陷的转反义ACS番茄和乙烯感受缺陷的Nr突变体番茄果实中PG基因表达量都明显下降,PG酶活性明显降低;用外源乙烯(100 μL/L)处理绿熟期番茄果实使PG基因的表达明显增强,而1-甲基环丙烯(1-MCP,1 μL/L)处理转色期番茄果实明显抑制PG基因表达.另一方面,转反义PG基因番茄果实乙烯释放量在授粉后低于其野生型,番茄乙烯受体基因LeETR4和乙烯反应因子LeERF2基因表达量比野生种低.PG降解果胶的产物D-GA(100 mg/L)促进未熟期番茄果实中的乙烯生成和LeETR4、LeERF2基因的表达.  相似文献   

3.
Ca2+和钙调素对H2O2诱导的玉米幼苗耐热性的调控   总被引:7,自引:0,他引:7  
外源H2O2预处理提高了玉米幼苗内源H2O2的含量和钙调素(CaM)活性,缓解了高温处理过程中CaM活性的下降,增加了玉米幼苗在高温胁迫下的存活率.H2O2诱导的玉米幼苗耐热性的形成可被外源Ca2 处理所加强,被Ca2 螯合剂EGTA、质膜Ca2 通道阻塞剂La3 、胞内Ca2 通道阻断剂RR(钌红),以及CaM抑制剂CPZ(氯丙嗪)和TFP(三氟拉嗪)所抑制,表明Ca2 和CaM参与了H2O2诱导的玉米幼苗耐热性形成的调控.  相似文献   

4.
外源Ca(NO_3)_2对NaCl胁迫下番茄幼苗生理特征的影响   总被引:2,自引:2,他引:0  
以番茄品种'农城906'和"毛粉802'幼苗为材料,利用Hoagland基础培养液,研究在150 mmol/L NaCl胁迫下外源10、20、30和40 mmol/L Ca(NO3)2对番茄植株盐胁迫的缓解作用.结果显示,(1) NaCl胁迫显著降低了2个品种幼苗地上和地下部分干重、叶片叶绿素含量和根系活力,增加了幼苗的可溶性糖含量、细胞膜透性和MDA含量,同时使其CAT、POD、SOD活性显著降低;(2)添加20 mmol/L Ca(NO3)2能够有效提高盐胁迫条件下幼苗的地上和地下部干重,缓解叶绿素的降解和根系活力的下降,增加幼苗体内可溶性糖含量,降低叶片质膜透性和MDA含量,增强幼苗体内POD、CAT等细胞保护酶活性,但随着Ca(NO3)2浓度的继续增加,这种缓解作用逐渐减小.研究表明,一定浓度的外源Ca(NO3)2能有效缓解NaCl对番茄幼苗的生长和生理伤害,在一定程度上增强番茄幼苗对盐胁迫的耐受力,并以20 mmol/L Ca(NO3)2对NaCl胁迫的缓解效果最佳.  相似文献   

5.
为了探索钙调蛋白基因(Ca M)在淡水贝类珍珠形成中的作用,研究0、0.5、1.25、2和3 mmol/L 5个不同Ca~(2+)浓度水环境下养殖三角帆蚌,并在插核后的0、20、50、90和120 d对外套膜和内脏团组织采样,采用荧光定量方法检测组织Ca M表达量。结果表明:(1)在不同Ca~(2+)浓度中,Ca M基因外套膜和内脏团组织在0 mmol/L Ca~(2+)浓度下始终处于过低表达水平;0.5 mmol/L浓度下先降低后升高并维持稳定;1.25 mmol/L浓度下在20 d内脏团出现降低,之后升高至0 d水平并保持稳定;在2mmol/L浓度下表达量在20 d时显著上升达到各浓度中最高后保持高表达量状态;3 mmol/L浓度下在插核后20 d表达量升高,之后时期表达量开始不断降低(P0.05)。(2)在插核后不同天数中,0 d各浓度表达差异不明显;之后各天数的表达出现明显差异。(3)相同条件养殖下,内脏团Ca M基因表达量高于外套膜。研究发现,0.5 mmol/L和2 mmol/L Ca~(2+)浓度会促进Ca M基因的表达,但0mmol/L和3 mmol/L的浓度则会抑制Ca M基因的表达。内脏团部位更有利于珍珠的形成。  相似文献   

6.
关军锋  李广敏 《植物学报》2000,17(5):413-418
Ca2+对植物乙烯生成的调节与作用位点有关,胞外Ca2+在维持质膜功能的同时,抑制乙烯生成,延缓衰老;过量Ca2+进入胞质,胞内Ca2+促进乙烯生成和衰老。内源CaM与乙烯生成关系密切,介入了乙烯代谢和外源激素对乙烯的调控。此外,Ca2+是乙烯信号传递所必需的。  相似文献   

7.
转反义LeETR2基因番茄植株的表型与普通番茄有所不同。用乙烯25μL/L处理,转基因番茄能够表现出正常的“三重反应”,但根的伸长和根毛形成受到显著抑制。同时,转基因番茄植株对乙烯处理的偏上生长反应敏感度不及普通番茄,叶柄和花柄的脱落被延迟。这几方面的表型特点并不完全一致,我们推测LeETR2在番茄发育的不同阶段可能发挥不同的功能。  相似文献   

8.
盐胁迫下番茄幼苗对赤霉素处理的响应   总被引:1,自引:0,他引:1  
为了研究盐胁迫下番茄幼苗对赤霉素处理的响应,本试验对不同盐胁迫浓度(0 mmol/L,50 mmol/L,160 mmol/L)条件下长至两叶一心的番茄幼苗叶片进行不同浓度的赤霉素(0 mg/L,20 mg/L,80 mg/L,150 mg/L)喷施处理,对其叶片可溶性糖、可溶性蛋白质、叶绿素含量以及干物重进行测定并进行分析。结果表明,番茄中可溶性糖含量、可溶性蛋白含量随着盐胁迫浓度的增加而增加,施加赤霉素后,可溶性糖含量的上升的幅度明显变大;盐胁迫条件下,番茄叶片干物重下降,且盐浓度越高干物质下降幅度越大,施加赤霉素后,干物重下降幅度减缓;随着盐胁迫浓度增加,番茄叶片的叶绿素含量降低,且浓度越高叶绿素含量下降趋势越明显,赤霉素的施加同样使叶绿素含量降低。以上结果为研究盐胁迫下番茄幼苗对赤霉素处理的响应提供了实验依据。  相似文献   

9.
外源钙离子对小麦幼苗氮素代谢的影响   总被引:4,自引:1,他引:3  
王志强  王春丽  林同保 《生态学报》2008,28(8):3662-3667
以普通小麦豫麦34为材料,研究了不同浓度的外源Ca2 对小麦幼苗氮素代谢的影响.在小麦第一片叶完全展开后,开始外源Ca2 处理,设0 (对照)、2、4 mmol · L-1 和8 mmol · L-1 4个Ca2 浓度梯度.处理5d后,测定氮同化酶活性、氮同化量及其它相关代谢物含量.结果表明,小麦幼苗叶片中硝酸还原酶(NR)和谷氨酰胺合成酶(GS)在2 mmol · L-1 Ca2 处理下活性比对照有显著增加,4 mmol · L-1 Ca2 处理的NR活性增加明显,但GS活性增加不显著;8 mmol · L-1 Ca2 处理下NR和GS活性比对照均明显降低.谷氨酸脱氢酶(NADH-GDH)活性在2 mmol · L-1 Ca2 处理下活性增加不明显,而在4、8 mmol · L-1 Ca2 处理下活性显著增加.小麦幼苗氮同化量以4 mmol · L-1处理最大,2 mmol · L-1处理与4 mmol · L-1之间差异不显著;Ca2 浓度为8 mmol · L-1时,氮素同化量明显降低.结果揭示了小麦幼苗不同氮同化途径对Ca2 的响应不同,GS途径比GDH途径对小麦氮素同化量的增加作用更大;4 mmol · L-1对小麦幼苗的氮素利用可能是最有效的Ca2 浓度.  相似文献   

10.
以拟南芥野生型(WT)、突变体col7、以及COL7过量表达转基因株系COL7-OX-10和COL7-OX-11为实验材料,观察比较了白光、红光以及蓝光下,生长在MS培养基上的幼苗表型,以及蓝光下生长在0、100 mmol/LNaCl MS培养基上的幼苗表型。结果发现,过量表达株系幼苗在白光和蓝光下出现黄化现象,并且NaCl处理导致蓝光下幼苗黄化现象更加严重。检测幼苗的花青素及叶绿素的含量,发现白光和蓝光下,过量表达株系幼苗中花青素和叶绿素的含量明显降低,其中蓝光下生长在含100 mmol/L NaCl的MS培养基上幼苗的花青素和叶绿素含量下降尤为明显,表明COL7可能参与调控花青素和叶绿素的合成,并依赖于蓝光。  相似文献   

11.
12.
Various compounds have been identified as precursors/substrates for the synthesis of ethylene (C2H4) in soil. This study was designed to compare the efficiency of four substrates, namely L-methionine (L-MET), 2-keto-4-methylthiobutyric acid (KMBA), 1-aminocyclopropane-1-carboxylic acid (ACC), and calcium carbide (CaC2) for ethylene biosynthesis in a sandy clay loam soil by gas chromatography. The classic "triple" response in etiolated pea seedling was employed as a bioassay to demonstrate the effect of substrate-dependent microbialy produced ethylene on plant growth. Results revealed that an amendment with L-MET, KMBA, ACC (up to 0.10 g/kg soil) and CaC2 (0.20 g/kg soil) significantly stimulated ethylene biosynthesis in soil. Overall, ACC proved to be the most effective substrate for ethylene production (1434 nmol/kg soil), followed by KMBA, L-MET, and CaC2 in descending order. Results further revealed that ethylene accumulation in soil released from these substrates created a classic "triple" response in etiolated pea seedlings with different degrees of efficacy. A more obvious classic "triple" response was observed at 0.15, 0.10, and 0.20 g/kg soil of L-MET, KMBA/ACC, and CaC2, respectively. Similarly, direct exposure of etiolated pea seedlings to commercial ethylene gas also modified the growth pattern in the same way. A significant direct correlation (r = 0.86 to 0.97) between substrate-derived [C2H4] and the classic triple response in etiolated pea seedlings was observed. This study demonstrated that the presence of substrate(s) in soil may lead to increased ethylene concentration in the air of the soil, which may affect plant growth in a desired direction.  相似文献   

13.
The hormone ethylene regulates many aspects of plant growth and development, including fruit ripening. In transgenic tomato (Lycopersicon esculentum) plants, antisense inhibition of ethylene biosynthetic genes results in inhibited or delayed ripening. The dominant tomato mutant, Never-ripe (Nr), is insensitive to ethylene and fruit fail to ripen. The Nr phenotype results from mutation of the ethylene receptor encoded by the NR gene, such that it can no longer bind the hormone. NR has homology to the Arabidopsis ethylene receptors. Studies on ethylene perception in Arabidopsis have demonstrated that receptors operate by a "receptor inhibition" mode of action, in which they actively repress ethylene responses in the absence of the hormone, and are inactive when bound to ethylene. In ripening tomato fruit, expression of NR is highly regulated, increasing in expression at the onset of ripening, coincident with increased ethylene production. This expression suggests a requirement for the NR gene product during the ripening process, and implies that ethylene signaling via the tomato NR receptor might not operate by receptor inhibition. We used antisense inhibition to investigate the role of NR in ripening tomato fruit and determine its mode of action. We demonstrate restoration of normal ripening in Nr fruit by inhibition of the mutant Nr gene, indicating that this receptor is not required for normal ripening, and confirming receptor inhibition as the mode of action of the NR protein.  相似文献   

14.
Analysis of the ethylene response in the epinastic mutant of tomato   总被引:1,自引:0,他引:1  
Ethylene can alter plant morphology due to its effect on cell expansion. The most widely documented example of ethylene-mediated cell expansion is promotion of the "triple response" of seedlings grown in the dark in ethylene. Roots and hypocotyls become shorter and thickened compared with controls due to a reorientation of cell expansion, and curvature of the apical hook is more pronounced. The epinastic (epi) mutant of tomato (Lycopersicon esculentum) has a dark-grown seedling phenotype similar to the triple response even in the absence of ethylene. In addition, in adult plants both the leaves and the petioles display epinastic curvature and there is constitutive expression of an ethylene-inducible chitinase gene. However, petal senescence and abscission and fruit ripening are all normal in epi. A double mutant (epi/epi;Nr/Nr) homozygous for both the recessive epi and dominant ethylene-insensitive Never-ripe loci has the same dark-grown seedling and vegetative phenotypes as epi but possesses the senescence and ripening characteristics of Never-ripe. These data suggest that a subset of ethylene responses controlling vegetative growth and development may be constitutively activated in epi. In addition, the epi locus has been placed on the tomato RFLP map on the long arm of chromosome 4 and does not demonstrate linkage to reported tomato CTR1 homologs.  相似文献   

15.
Alterations in the response of dark-grown seedlings to ethylene (the "triple response") were used to isolate a collection of ethylene-related mutants in Arabidopsis thaliana. Mutants displaying a constitutive response (eto1) were found to produce at least 40 times more ethylene than the wild type. The morphological defects in etiolated eto1-1 seedlings reverted to wild type under conditions in which ethylene biosynthesis or ethylene action were inhibited. Mutants that failed to display the apical hook in the absence of ethylene (his1) exhibited reduced ethylene production. In the presence of exogenous ethylene, hypocotyl and root of etiolated his1-1 seedlings were inhibited in elongation but no apical hook was observed. Mutants that were insensitive to ethylene (ein1 and ein2) produced increased amounts of ethylene, displayed hormone insensitivity in both hypocotyl and root responses, and showed an apical hook. Each of the "triple response" mutants has an effect on the shape of the seedling and on the production of the hormone. These mutants should prove to be useful tools for dissecting the mode of ethylene action in plants.  相似文献   

16.
The response of Arabidopsis thaliana etiolated seedlings to the plant hormone ethylene is a conspicuous phenotype known as the triple response. We have identified genes that are required for ethylene perception and response by isolating mutants that fail to display a triple response in the presence of exogenous ethylene. Five new complementation groups have been identified. Four of these loci, designated ein4, ein5, ein6 and ein7, are insensitive to ethylene. The fifth complementation group, eir1, is defined by a novel class of mutants that have agravitropic and ethylene-insensitive roots. Double-mutant phenotypes have allowed the positioning of these loci in a genetic pathway for ethylene signal transduction. The ethylene-response pathway is defined by the following loci: ETR1, EIN4, CTR1, EIN2, EIN3, EIN5, EIN6, EIN7, EIR1, AUX1 and HLS1. ctr1-1 is epistatic to etr1-3 and ein4, indicating that CTR1 acts after both ETR1 and EIN4 in the ethylene-response pathway. Mutations at the EIN2, EIN3, EIN5, EIN6 and EIN7 loci are all epistatic to the ctr1 seedling phenotype. The EIR1 and AUX1 loci define a root-specific ethylene response that does not require EIN3 or EIN5 gene activity. HLS1 appears to be required for differential cell growth in the apical hook. The EIR1, AUX1 and HLS1 genes may function in the interactions between ethylene and other plant hormones that occur late in the signaling pathway of this simple gas.  相似文献   

17.
LE-ACS6启动子在LE-ACS6::GUS转基因拟南芥中的特异性   总被引:3,自引:0,他引:3  
通过对不同发育时期LE-ACS6::GUS转基因拟南芥中GUS表达特异性的研究,证明LE-ACS6基因的启动子在拟南芥中也表现启动参与第一系统乙烯合成的关键酶基因的活性.在转基因拟南芥中,LE-ACS6启动子还表现响应外源生长素处理、伤害处理等多种刺激因子的特点.  相似文献   

18.
Calmodulin (CaM), the predominant Ca(2+) receptors, is one of the best-characterized Ca(2+) sensors in all eukaryotes. In this study the role of CaM and the possible interrelationship between CaM and hydrogen peroxide (H(2)O(2)) in abscisic acid (ABA) induced antioxidant defense were investigated in the seedling of Panax ginseng. Treatment of ABA (100 μM) and H(2)O(2) (10 mM) increased the expression of Panax ginseng calmodulin gene (PgCaM) and significantly enhanced the expression of the antioxidant marker genes such as superoxide dismutase, ascorbate peroxidase, glutathione reductase and the activities of chloroplastic and cytosolic antioxidant enzymes. Pretreatments with two CaM antagonists, trifluoperazine (TFP), N-(6-aminohexyl)-5-chloro-1-naphthalene sulfonamide hydrochloride (W7) and inhibitor or scavenger, diphenyleneiodonium chloride, and dimethylthiourea of reactive oxygen species almost completely suppressed the up-regulation of antioxidant and PgCaM gene. Moreover, H(2)O(2) production and CaM content was almost completely inhibited by pretreatments with two CaM antagonists. In addition, the expressions of PgCaM gene under different biotic stress were analyzed at different time intervals. Thus it may suggests that CaM are involved in ABA-induced increased expression of PgCaM which triggers H(2)O(2) production through activating trans-plasma membrane NADPH oxidase, resulting in up-regulation of defense related antioxidant gene and also plays a pivotal role in defense response against pathogens.  相似文献   

19.
硝酸盐对硝酸还原酶活性的诱导及硝酸还原酶基因的克隆   总被引:16,自引:0,他引:16  
硝酸盐在植物体内的积累过多已成为影响蔬菜品质并影响人类健康的重要因素。硝酸还原酶(NR)是硝酸盐代谢中的关键酶,提高其活性有利于硝酸盐的降解。为了解植物不同组织中NR的活性,用活体测定法检测了经50mmol/L的KNO3诱导不同时间后的油菜、豌豆和番茄幼苗根茎叶中NR活性,同时为了明确外源诱导剂浓度与植物体内NR活性的关系,检测了经不同浓度KNO3诱导2h后的矮脚黄、抗热605、小白菜和番茄叶片中的NRA。结果表明,不同植物组织NR活性有很大差异,叶中NR活性较高,根其次,茎最低;不同植物的NR活性随诱导时间呈不同的变化趋势,相同植物不同组织的NR活性变化趋势相似;不同植物叶片NRA为最高时KNO3浓度不同。用30mmol/L的KNO3诱导番茄苗2h后,从番茄根和叶中提取总RNA,用RT-PCR方法获得NR cDNA,全长2736bp,编码911个氨基酸。为进一步利用该基因提高植物对硝酸盐的降解能力打下基础。  相似文献   

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