Wydrzynski T, Gross E L
Biochim Biophys Acta. 1975 Jan 31;376(1):151-61. doi: 10.1016/0005-2728(75)90213-3.
The effects of Na plus and Mg-2 plus on the "dark" level (O level) and light-induced (P level) fluorescence in sucrose-washed spinach clhoroplasts were studied. Low concentrations of NaCl (2-10 mM) cause a significant decrease in both the O and P levels in the chlorophyll fluorescence transient. The effect on the O level may reflect changes in the bulk chlorophyll a. At 77 degrees K NaCl increases the F735/F685 emission peak ratio in dark-adapted and preilluminated chloroplasts, but has no significant effect on this ratio in sucrose-washed Photosystem II particles. This evidence is consistent with a sodium-induced excitation-energy distribution in favor of Photosystem I. In the presence of MgCl2, with or without NaCl, there is a slight decrease in the O and P level fluorescence as compared with the salt-free control, but an increase as compared with the NaCl-treated sample. Magnesium appears to override the sodium-induced changes. At low temperatures in chloroplasts and Photosystem II particles, MgCl2 has different effects on the F735/F685 ratio apparently depending on the state of the membrane. Magnesium, however, always induces an increase in the F695/F685 ratio. These results suggest that magnesium may influence Photosystem II reaction centers as well as energy distribution between the two photosystems.
研究了Na⁺和Mg²⁺对经蔗糖洗涤的菠菜叶绿体中“暗”水平(O水平)和光诱导(P水平)荧光的影响。低浓度的NaCl(2 - 10 mM)会导致叶绿素荧光瞬变中的O水平和P水平均显著下降。对O水平的影响可能反映了叶绿素a总量的变化。在77K时,NaCl会增加暗适应和预光照叶绿体中F735/F685发射峰比值,但对经蔗糖洗涤的光系统II颗粒中的该比值无显著影响。这一证据与钠诱导的激发能分布有利于光系统I一致。在存在MgCl₂的情况下,无论有无NaCl,与无盐对照相比,O水平和P水平荧光略有下降,但与经NaCl处理的样品相比则有所增加。镁似乎会抵消钠诱导的变化。在叶绿体和光系统II颗粒的低温下,MgCl₂对F735/F685比值有不同影响,这显然取决于膜的状态。然而,镁总是会导致F695/F685比值增加。这些结果表明,镁可能会影响光系统II反应中心以及两个光系统之间的能量分布。
