摘要
The ultrastructural distribution and active location of ATPase and the ultrastructural variations were investigated in mesophyll cells of Cyclocarya paliurus seedlings after iso-osmotic salt/water treatments in combination with calcium regulation. C. paliurus seed- lings were treated with five groups (control, 85 mM NaCl, 85 mM NaCl+ 12 mM Ca(NO3)2, PEG iso-osmotic to 85 mM NaCl and PEG iso-osmotic to 85 mM NaCl+12 mM Ca(NO))2) in a hydroponic system in a phytotron. Results show that under normal growth conditions the ATPase activity was low and the enzyme was primarily located on the nucleus. After 12 days of iso-osmotic salt/water treatments, ATPase activity on the tonoptast increased. Osmiophilic globules for iso-osmotic water treatment were greater than that for iso-osmotie salt treatments. The ATPase activity increased and was mostly transferred onto the nucleus for calcium regulation treatment under iso- osmotic salt/water stresses, and the osmiophilic globules significantly decreased under iso-osmotic water stress with calcium regulation. The ATPase located on the nucleus indicated that the degree of salt/drought damage that seedlings suffered was slighter, while the amount of the enzyme located on the tonoplast showed that the degree of salt/drought damage there was more serious. After 4 and 20 days of iso- osmotic treatments, the injury suffered by the leaf ultrastructures of C. paliurus seedlings for iso-osmotic treatment with calcium regula- tion was lower than those without calcium regulation, especially for the iso-osmotic water treatments. Preliminary analysis suggests that the iniury suffered by C. paliurus seedlings was lower for iso-osmotic salt treatments than for iso-osmotic water treatments, while the effect of calcium regulation under iso-osmotic water stress was greater than that of the iso-osmotic salt stress.
研究了等渗的盐和水分胁迫及其钙调节下,青钱柳幼苗叶肉细胞中ATP酶活性在亚细胞中的分布及其超微结构变化。在人工气候室中采用水培法,将青钱柳幼苗进行5个不同浓度处理:对照,85mMNaCl,85mMNaCl+12mMCa(NO3)2,PEG(渗透势等于85mMNaCl)及PEG(渗透势等于85mMNaCI)+12mMCa(NO3)2。结果表明:正常生长条件下,ATP酶活性较低并主要定位在细胞核中;等渗胁迫12d以后,ATP酶活性增大并以液泡中居多。等渗水分胁迫下出现的嗜锇颗粒较等渗盐胁迫下的多。由于外源钙的调节作用,等渗胁迫下ATP酶活性增加并主要转移至细胞核上,且在等渗水分胁迫下的嗜锇颗粒明显减少。ATP酶定位在细胞核中表明幼苗遭受胁迫伤害程度较轻,而定位在液泡中则表明受伤害程度较重。等渗处理4和20d后,等渗胁迫及其钙调节下青钱柳幼苗叶片超微结构被破坏程度较无钙调节处理,尤其是较等渗水分胁迫下的轻。初步认为,等渗盐胁迫下青钱柳幼苗遭受的胁迫伤害程度较等渗水分胁迫下的轻,而钙调节作用则以等渗水分胁迫下的效果较佳。
基金
supported by the National Natural Science Foundation of China (Project No: 30371156)
Research Foundation of Jiangsu Province (Project No: BG2006314)
