植物生态学报
植物生態學報
식물생태학보
ACTA PHYTOECOLOGICA SINICA
2001年
2期
230-234
,共5页
辣椒%热胁迫%细胞膜透性%Ca2+
辣椒%熱脅迫%細胞膜透性%Ca2+
랄초%열협박%세포막투성%Ca2+
以辣椒(Capsicumannuum)幼苗的叶片为材料,研究了外源Ca2+预处理对热胁迫下细胞质膜透性和谷胱甘肽(GSH)、抗坏血酸(AsA)含量变化及Ca2+分布的影响。结果表明:外源Ca2+预处理能减轻热胁迫引起的细胞膜破坏,能够减少叶片中GSH和AsA的破坏。热胁迫后,Ca2+具有从胞外转运到胞质内和叶绿体中的趋势;外施Ca2+预处理能够明显增加细胞间隙、液泡和叶绿体中的Ca2+颗粒密度,能够稳定热胁迫下叶肉细胞膜和叶绿体的超微结构。结果表明,外施Ca2+预处理可能通过改变细胞内外的Ca2+分布,减轻热胁迫对叶肉细胞的伤害。
以辣椒(Capsicumannuum)幼苗的葉片為材料,研究瞭外源Ca2+預處理對熱脅迫下細胞質膜透性和穀胱甘肽(GSH)、抗壞血痠(AsA)含量變化及Ca2+分佈的影響。結果錶明:外源Ca2+預處理能減輕熱脅迫引起的細胞膜破壞,能夠減少葉片中GSH和AsA的破壞。熱脅迫後,Ca2+具有從胞外轉運到胞質內和葉綠體中的趨勢;外施Ca2+預處理能夠明顯增加細胞間隙、液泡和葉綠體中的Ca2+顆粒密度,能夠穩定熱脅迫下葉肉細胞膜和葉綠體的超微結構。結果錶明,外施Ca2+預處理可能通過改變細胞內外的Ca2+分佈,減輕熱脅迫對葉肉細胞的傷害。
이랄초(Capsicumannuum)유묘적협편위재료,연구료외원Ca2+예처리대열협박하세포질막투성화곡광감태(GSH)、항배혈산(AsA)함량변화급Ca2+분포적영향。결과표명:외원Ca2+예처리능감경열협박인기적세포막파배,능구감소협편중GSH화AsA적파배。열협박후,Ca2+구유종포외전운도포질내화협록체중적추세;외시Ca2+예처리능구명현증가세포간극、액포화협록체중적Ca2+과립밀도,능구은정열협박하협육세포막화협록체적초미결구。결과표명,외시Ca2+예처리가능통과개변세포내외적Ca2+분포,감경열협박대협육세포적상해。
In this study, young pepper (Capsi cum annuum L. cv. Xiang-Yan10)leaves were used to examine the effects of exo genous Ca2+ pretreatment on electrolyte leakage, ascorbate(AsA) and glutat hione(GSH) contents, and the change in Ca2+ distribution in mesophyll cell s under heat stress. The results show that exogenous Ca2+ pretreatment can alleviate the damage of cell membrane caused by heat stress. The amount of GSH and AsA in calcium-treated leaves under heat stress was higher than that in con trol leaves. In the control pepper seedlings growing under normal temperature, deposits of calcium antimonate, an indicator for Ca2+ localization, were ob served within the vacuoles, intercellular spaces, and chloroplasts. This indicat es that Ca2+ pretreatment could induce changes in Ca2+ distribution and significantly increase the Ca2+ level in intercellular spaces, vacuole s and chloroplasts. When calcium-treated leaves were under heat stress at 40°, the amount of Ca2+ located in intercellular space decreased, and most of t hem transferred to cytosol and chloroplast across the plasmalemma. The results s uggest that exogenous Ca2+ results in changes in Ca2+ distribution b etween inter-and intracellular spaces and, as a result, the ultrastructure of m esophyll cells could be protected from damage caused by heat stress.