摘要
以菠菜离体完整叶绿体为试材,研究Ce(Ⅲ)对UV-B辐射(4.5W·m-2)胁迫下叶绿体Hill反应活力、光合磷酸化活性以及Mg2+-ATPase活性的影响。结果表明,菠菜离体完整叶绿体Hill反应活力、光合磷酸化活性、Mg2+-ATPase活性在同一时段的变化规律均为:Ce(Ⅲ)>CK>Ce(Ⅲ)+T>T。这表明,UV-B辐射下叶绿体光化学反应活性降低是光合作用受抑的能量基础。Ce(Ⅲ)的介入可在一定程度上减轻UV-B辐射对叶绿体光化学反应活性的抑制,而UV-B辐射(4.5W·m-2)胁迫结束后离体叶绿体自修复与Ce(Ⅲ)调控恢复的效果均不明显,揭示离体叶绿体因失去叶片附属结构保护,对UV-B辐射敏感性增加。
Effects of cerium on Hill reaction activity, photophosphorylation rate and Mg^2+-ATPase activity in spinach chloroplasts exposed to supplementary UV-B radiation (4.5 W·m^-2) were studied. The response sequences of Hill reaction activity, photophosphorylation rate and the Mg^2+-ATPase activity under four treatments were all as follows: CK〉T〉Ce( Ⅲ )〉Ce( Ⅲ)+T, indicating that the UV-B-induced inhibition to photochemical reaction activities caused a decrease in photosynthesis by reducing energy contribution. Ce(Ⅲ ) could alleviate the UV-B-induced inhibition to photochemical reaction activities in isolated intact chloroplast from spinach. When UV-B radiation stopped, the self-repairing in chloroplast was not realized, and the regulating effects of Ce( Ⅲ ) on restoration in chloroplast were not significant, suggesting that the sensitivity of isolated chloroplast to UV-B radiation was increased because of losing the protection of accessory organs in leaf.
出处
《农业环境科学学报》
CAS
CSCD
北大核心
2007年第3期960-963,共4页
Journal of Agro-Environment Science
基金
国家发改委稀土专项基金(IFZ20051210)
国家自然科学基金(20471030)
校青年教师科研启动基金
