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赤霉素不仅对植物的种子萌发、叶片伸展和开花结果有重要的影响, 而且在茎秆的发育过程中扮演关键的角色。它的生物合成受到多种酶的调控, 其中赤霉素3-氧化酶(GA3OX)是关键的限速酶, 备受重视。拟南芥AtGA3OX 基因由4个成员组成, 其中A3OX1 和 AtGA3OX2 基因在茎中超量表达, 可能与茎的发育有关。目前, 尚未见到AtGA3OX1、AtGA3OX2基因调控次生细胞壁增厚的报道。文章以拟南芥AtGA3OX1 和 AtGA3OX2 基因双突变体atga3ox1atga3ox2为材料, 系统研究了AtGA3OX1和AtGA3OX2 基因对次生细胞壁的影响。结果表明:同时突变 AtGA3OX1和AtGA3OX2基因不仅显著抑制了茎秆次生细胞壁纤维细胞的增厚(对导管细胞没有影响), 而且也明显降低了次生细胞壁3个组分(纤维素、半纤维素和木质素)的含量。利用实时荧光定量PCR (qRT-PCR) 进一步分析次生细胞壁3个组分生物合成基因及相关的转录因子的表达情况, 结果显示这些基因在双突变体中均受到显著影响, 表明拟南芥AtGA3OX1和 AtGA3OX2 基因可能是通过调控这些转录因子进而调控了次生细胞壁的加厚。研究结果为基因工程调控拟南芥AtGA3OX1、AtGA3OX2 基因(或其他物种同源基因), 进而增强粮食作物抗倒伏性和提高能源植物纤维生物质量提供了理论依据。 相似文献
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马铃薯块茎切片- 软腐病菌亲和互作过程中, 不同强度的亲和互作中活性氧的释放有其不同的特点。在强亲和互作中的24 小时内,无明显的活性氧释放。但在弱亲和互作中,互作8 小时后,即有明显的活性氧的释放,20 小时达到高峰,并且这种活性氧的释放提高寄主的抗病性。试验显示马铃薯块茎切片与软腐病菌的亲和互作诱导寄主抗氰交替途径的运行,SHAM 处理降低亲和互作过程中寄主的感病性, 同时SHAM 处理也促进亲和互作中寄主活性氧释放高峰的出现, 表明抗氰交替途径的运行可通过抑制亲和互作中寄主活性氧的产生而促进寄主的感病性。从而证明了一种新的寄主植物抗感病反应机制 相似文献
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1 引 言山黧豆抗寒、抗旱、耐贫瘠 ,尤其适于干旱、半干旱地区种植 .但山黧豆中含有的毒素 β ODAP会导致下肢瘫痪 .由于这个原因限制了山黧豆的大面积栽培 .我们采用 60 Coγ射线和EMS单因子、复因子诱变的方法选育丰产、低毒、无毒山黧豆新品系 .近年来对生物辐射敏感性的研究表明 ,其抗性除与本身DNA损伤修复能力有关外 ,还与体内所含防护物质有关 ,SOD、POD、CAT即是重要的保护物质 .关于抗氧化酶活性与辐射剂量、诱变剂浓度关系的研究很少 ,因此本实验对山黧豆成苗率、抗氧化酶活性、和 β ODAP含量进行… 相似文献
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Lathyrus sativus seeds were treated with 60Coγ-ray and EMS(ethyl methane sulfonate), and their emergence rate and SOD,POD and CAT activities were determined. The result indicated that the treatment decreased the emergence rate. The activities of SOD and POD were changed in accordance with the increase of irradiation dose and EMS concentration, while that of CAT had no obvious change. After treatment, the ODAP content in Lathyrus sativus decreased. Amutant was developed, with toxin content of 0.1%, compared to 0.2% in control. 相似文献
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水分胁迫下山黧豆多胺代谢与β_N_草酰_L_α,β_二氨基丙酸积累相关性的研究 总被引:4,自引:0,他引:4
Seedlings of grass pea (Lathyrus sativus L.) were treated with polyethylene glycol (PEG), in addition with putrescine (Put) and α-difluoromethylarginine (DFMA) in order to study the relation between polyamine metabolism and accumulation of β-N-oxalyl-L-α, β-diaminopropionic acid (ODAP) under water stress. The results indicated that Put, spermidine (Spd) and spermine (Spm) contents of leaves gradually increased along with the extension of PEG-treatment time. Especially, the increase in Spm contents was significant together with a gradual increase of ODAP contents. Put and Spd contents of leaves markedly increased along with the extension of PEG+Put treatment time. There was little effect on Spm contents and ODAP contents in leaves with PEG+Put treatment. The accumulation of Put, Spd, Spm and ODAP in leaves was inhibited by PEG+DFMA treatment. The inhibition of DFMA for Put and Spd biosynthesis was partially overcome by adding exogenous Put, but little effect for the inhibition of DFMA on Spm biosynthesis by adding exogenous Put. The accumulation of ODAP was inhibited with PEG+DFMA+Put treatment in leaves. This indicated that there was a relationship between the increase of Spm contents and the accumulation of ODAP in leaves under water stress. 相似文献
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