中国农业科学 ›› 2010, Vol. 43 ›› Issue (7): 1379-1388 .doi: 10.3864/j.issn.0578-1752.2010.07.008

• 耕作栽培·生理生化 • 上一篇    下一篇

叶片喷施H2O2 以及转入Cu/Zn SOD和APX基因对甘薯幼苗冷后恢复的作用

伍小兵,成雨洁,邓西平,郭尚洙

  

  1. (西北农林科技大学黄土高原土壤侵蚀与旱地农业国家重点实验室)
  • 收稿日期:2009-07-21 修回日期:2009-10-14 出版日期:2010-04-01 发布日期:2010-04-01
  • 通讯作者: 邓西平

Effect of Foliar Spraying of H2O2 and Cu/Zn SOD and APX Gene Transfered in Chloroplasts on the Recoverability of Sweet Potato After Chilling Stress

WU Xiao-bing, CHENG Yu-jie, DENG Xi-ping, KWAK Sang-soo
  

  1. (西北农林科技大学黄土高原土壤侵蚀与旱地农业国家重点实验室)
  • Received:2009-07-21 Revised:2009-10-14 Online:2010-04-01 Published:2010-04-01
  • Contact: DENG Xi-ping

摘要:

【目的】研究转入铜/锌超氧化物歧化酶(Cu/Zn SOD)和抗坏血酸氧化酶(APX)基因甘薯幼苗在短时间冷胁迫处理后的恢复过程中与其非转基因对照株比较是否具有抗冷优势,以及用外源过氧化氢(H2O2)于冷胁迫前预处理甘薯叶片能否增强幼苗的冷后恢复能力。【方法】以转入Cu/Zn SOD和APX基因的甘薯幼苗及其非转基因对照株为试验材料,研究在5℃下冷胁迫一夜(12 h)后,植株的细胞膜透性、各种抗氧化酶活性以及光合作用的各项指标的变化过程,以了解植株的冷后恢复情况;以及用1.0 mmol•L-1 H2O2于冷胁迫前4 h叶片喷施预处理对其抗冷性的影响。【结果】(1)在短时间(12 h)冷胁迫后的很短时间(2 h)内,非转基因植株的APX、SOD、CAT(过氧化氢酶)这3种抗氧化酶活性及类胡萝卜素含量显著降低,膜透性升高,光合色素以及光合电子传递链受到破坏,光合速率显著下降;在经过26 h的室温恢复后,植株的上述3种抗氧化酶活性及类胡萝卜素含量都得到显著提升,但膜透性继续增加,光合电子传递链得到修复,而光合色素却显著下降,光合作用恢复。(2)与非转基因对照植株相比较,转基因植株在冷胁迫后表现出较高的上述3种抗氧化酶活性及类胡萝卜素含量、较低的膜透性、较强的光合色素以及光合电子传递系统保护能力,其光合速率也相对较强。(3)用1.0 mmol•L-1 H2O2预处理组的植株对比未预处理的对照株,在冷胁迫后的恢复过程中,表现出了较强的SOD与APX酶活性的恢复能力,较低的MDA产生量以及膜透性,且冷处理后植株的生长状况更加良好。【结论】转基因植株在冷胁迫处理中较非转基因对照表现出较强的冷耐受性,在冷后恢复过程中也显示出更强的恢复能力,转基因甘薯幼苗更具有抗冷优势;用1.0 mmol•L-1 H2O2预处理植株能够显著提高甘薯幼苗的冷后恢复能力,增强其抗冷性。

关键词: 甘薯, 过氧化氢(H2O2), 转基因, 抗冷性

Abstract:

【Objective】 In an experiment, the recoverability of the sweetpotato, which expressed both Cu/Zn superoxide dismutase (SOD) and ascorbate peroxidase (APX) in chloroplasts, was compared with its control plants after a short time of chilling stress, and foliar application of exogenous hydrogen peroxide (H2O2) before chilling stress on enhancement of seedling recovery capability after chilling stress was studied.【Method】 The transgenic sweetpotato that simultaneously expressed both Cu/Zn SOD and APX in chloroplast and its non-transgenic control plants were used as materials, and the recoverability of them after one night (12 h) of chilling stress at 5℃, and the enhancement of chilling resistance when pretreated them with 1.0 mmol•L-1 H2O2 before chilling stress, the membrane permeability, anti-oxidative enzymes system and photosynthetic system of each plant were tested in this experiment. 【Result】 Soon after a short time (12 h) chilling stress, the activity of anti-oxidative enzymes of SOD, AXP and CAT (catalase) in non-transgenic sweet potato decreased significantly and so did the content of carotenoid, but the membrane permeability increased significantly, photosynthetic pigment and photosynthetic electron transport chain were damaged, so the photosynthetic rate reduced. After 26 h of recovery at room temperature (25℃), the activities of the above three mentioned anti-oxidative enzymes and the content of carotenoid all increased significantly, membrane permeability kept a tendency of increase, and photosynthetic electron transport chain was almost repaired completely while photosynthetic pigment decreased significantly, but the photosynthesis recovered to a large extent. Compared with non-transgenic sweetpotato after chilling stress, it was observed that in transgenic sweetpotato, the activities of the above three mentioned anti-oxidative enzymes and the content of caroternoid were higher, membrane permeability was lower, and furthermore the transgenic sweetpotato had a stronger ability to protect photosynthetic pigment and photosynthetic electron transport chain, therefore, the photosynthetic rate was relatively high. It was also observed that in the recovery process of the plants treated with 1.0 mmol•L-1 H2O2 before chilling stress, compared with the non-treatments, the recovery capabilities of the anti-oxidative enzymes were stronger, the content of MDA and membrane permeability were lower, and the growth status after chilling was better. 【Conclusion】 A stronger chilling-resistance ability was showed in transgenic sweetpotato compared with non-transgenic sweetpotato under the treatment of chilling stress, and so did a stronger recovery capability after stress. So the introduced genes of Cu/Zn SOD and APX provided sweetpotato an advantage against chilling. The pretreatment with 1.0 mmol•L-1 H2O2 improved the recovery capability of the sweetpotato plants after stress, and the chilling resistance was enhanced.

Key words: sweetpotato, hydrogen peroxide, transgenic, chilling resistance