农业科学与技术:英文版
農業科學與技術:英文版
농업과학여기술:영문판
Agricultural Science & Technology
2012年
8期
1655-1657,1663
,共4页
任静%冯婷婷%陈振华%刘乐雨%冯永永%高华健%赵凤云
任靜%馮婷婷%陳振華%劉樂雨%馮永永%高華健%趙鳳雲
임정%풍정정%진진화%류악우%풍영영%고화건%조봉운
超氧阴离子%生长素%水稻根系
超氧陰離子%生長素%水稻根繫
초양음리자%생장소%수도근계
Superoxide Radical%Rice Root System%Auxin
[目的]探讨超氧阴离子对水稻根系生长和生长素分布的影响。[方法]以水稻中花11号为试验材料,分析了DDC(SOD抑制剂)和Tiron(超氧阴离子清除剂)对水稻根系生长、超氧阴离子产生和生长素积累分布的影响。[结果]DDC显著促进了初生根和不定根的伸长生长及其侧根的形成和伸长,Tiron则显著抑制了地上部分、初生根及其侧根的伸长生长,对不定根的形成和伸长及其侧根的生长也有显著的抑制作用。DDC诱导超氧阴离子增加,而Tiron使超氧阴离子的积累减少。DDC诱导生长素在根伸长区以后部位和维管束内的积累增加,相反,Tiron使生长素的积累减少。[结论]该研究结果表明超氧阴离子对水稻根系生长的调节与其诱导生长素积累和分布的变化有密切关系。
[目的]探討超氧陰離子對水稻根繫生長和生長素分佈的影響。[方法]以水稻中花11號為試驗材料,分析瞭DDC(SOD抑製劑)和Tiron(超氧陰離子清除劑)對水稻根繫生長、超氧陰離子產生和生長素積纍分佈的影響。[結果]DDC顯著促進瞭初生根和不定根的伸長生長及其側根的形成和伸長,Tiron則顯著抑製瞭地上部分、初生根及其側根的伸長生長,對不定根的形成和伸長及其側根的生長也有顯著的抑製作用。DDC誘導超氧陰離子增加,而Tiron使超氧陰離子的積纍減少。DDC誘導生長素在根伸長區以後部位和維管束內的積纍增加,相反,Tiron使生長素的積纍減少。[結論]該研究結果錶明超氧陰離子對水稻根繫生長的調節與其誘導生長素積纍和分佈的變化有密切關繫。
[목적]탐토초양음리자대수도근계생장화생장소분포적영향。[방법]이수도중화11호위시험재료,분석료DDC(SOD억제제)화Tiron(초양음리자청제제)대수도근계생장、초양음리자산생화생장소적루분포적영향。[결과]DDC현저촉진료초생근화불정근적신장생장급기측근적형성화신장,Tiron칙현저억제료지상부분、초생근급기측근적신장생장,대불정근적형성화신장급기측근적생장야유현저적억제작용。DDC유도초양음리자증가,이Tiron사초양음리자적적루감소。DDC유도생장소재근신장구이후부위화유관속내적적루증가,상반,Tiron사생장소적적루감소。[결론]해연구결과표명초양음리자대수도근계생장적조절여기유도생장소적루화분포적변화유밀절관계。
[Objective] This study aimed to investigate the effect of superoxide radical on root system growth and auxin distribution in rice (Oryza sativa L. cv Zhonghua No.11). [Method] With rice Zhonghua No.ll as the experimental material, the effects of DDC (SOD inhibitor) and Tiron (superoxide radical scavenger) on the root system growth, superoxide radical generation and root system auxin distribution in rice were analyzed. [Result] The growth and elongation of primary and adventitious roots were significantly promoted by DDC, while Tiron significantly inhibited the growth and elongation of shoots, primary roots and their lateral roots, and also suppressed the formation and growth of the adventitious roots as well as the elongation of their lateral roots. The superoxide radical was increased with the induction of DDC, while Tiron decreased the accumulation of superoxide radical. Increased accumulation of auxin in the vascular bundle and behind the elongation zone was observed in DDC- treated roots, while the treatment with Tiron resulted in a decrease of auxin in the same position. [Conclusion] This study indicated that the regulation of rice root sys- tem growth by superoxide radical was closely related with the accumulation and distribution of auxin.