Department of Bioscience and Technology, School of Engineering, Hokkaido Tokai University, 005, Sapporo, Japan.
Plant Cell Rep. 1995 Jun;14(9):566-70. doi: 10.1007/BF00231939.
Cotyledons excised from dark-grown seedlings of cucumber (Cucumis sativus L.) were cultured in vitro under UV radiation at different wavelengths, obtained by passage of light through cut-off filters with different transmittance properties. Growth and the synthesis of chlorophyll (Chl) in cotyledons were inhibited and malondialdehyde was accumulated upon irradiation at wavelengths below 320 nm. Exogenous application of scavengers of free radicals reversed the growth inhibition induced by UV-B. Measurement of the fluorescence of Chl a suggested that electron transfer in photosystems was affected by UV-B irradiation. On the basis of these results, the involvement is postulated of active species of oxygen in damages to thylakoid membranes and the growth inhibition that are induced by UV-B irradiation.
从黑暗中生长的黄瓜(Cucumis sativus L.)幼苗中切下的子叶在不同波长的紫外线辐射下进行离体培养,这些波长是通过具有不同透过率特性的截止滤光片获得的。在波长低于 320nm 的情况下,子叶的生长和叶绿素(Chl)的合成受到抑制,丙二醛积累。自由基清除剂的外源应用逆转了由 UV-B 诱导的生长抑制。Chl a 荧光的测量表明,电子传递在光系统中受到 UV-B 辐射的影响。基于这些结果,提出了活性氧物种在 UV-B 辐射诱导的类囊体膜损伤和生长抑制中的作用。