Sai Jiqing, Johnson Carl Hirschie
Department of Biological Sciences, Vanderbilt University, Nashville, TN 37235, USA.
Plant Cell. 2002 Jun;14(6):1279-91. doi: 10.1105/tpc.000653.
Using transgenic Nicotiana plumbaginifolia seedlings in which the calcium reporter aequorin is targeted to the chloroplast stroma, we found that darkness stimulates a considerable flux of Ca(2+) into the stroma. This Ca(2+) flux did not occur immediately after the light-to-dark transition but began approximately 5 min after lights off and increased to a peak at approximately 20 to 30 min after the onset of darkness. Imaging of aequorin emission confirmed that the dark-stimulated luminescence emanated from chloroplast-containing tissues of the seedling. The magnitude of the Ca(2+) flux was proportional to the duration of light exposure (24 to 120 h) before lights off; the longer the duration of light exposure, the larger the dark-stimulated Ca(2+) flux. On the other hand, the magnitude of the dark-stimulated Ca(2+) flux did not appear to vary as a function of circadian time. When seedlings were maintained on a 24-h light/dark cycle, there was a stromal Ca(2+) burst after lights off every day. Moreover, the waveform of the Ca(2+) spike was different during long-day versus short-day light/dark cycles. The dark-stimulated Ca(2+) flux into the chloroplastidic stroma appeared to affect transient changes in cytosolic Ca(2+) levels. DCMU, an inhibitor of photosynthetic electron transport, caused a significant increase in stromal Ca(2+) levels in the light but did not affect the magnitude of the dark-stimulated Ca(2+) flux. This robust Ca(2+) flux likely plays regulatory roles in the sensing of both light/dark transitions and photoperiod.
我们使用了转基因的烟草幼苗,其中钙报告蛋白水母发光蛋白靶向定位于叶绿体基质,结果发现黑暗会刺激大量的Ca(2+)流入基质。这种Ca(2+)流动并非在光暗转换后立即发生,而是在熄灯后约5分钟开始,并在黑暗开始后约20至30分钟增加到峰值。水母发光蛋白发射成像证实,黑暗刺激的发光来自幼苗含叶绿体的组织。Ca(2+)流动的幅度与熄灯前的光照持续时间(24至120小时)成正比;光照持续时间越长,黑暗刺激的Ca(2+)流动就越大。另一方面,黑暗刺激的Ca(2+)流动幅度似乎并不随昼夜节律时间而变化。当幼苗维持在24小时光/暗周期时,每天熄灯后都会有基质Ca(2+)爆发。此外,在长日照与短日照光/暗周期中,Ca(2+)峰值的波形不同。黑暗刺激的Ca(2+)流入叶绿体基质似乎会影响细胞质Ca(2+)水平的瞬时变化。光合电子传递抑制剂敌草隆(DCMU)在光照下会导致基质Ca(2+)水平显著升高,但不影响黑暗刺激的Ca(2+)流动幅度。这种强大的Ca(2+)流动可能在感知光/暗转换和光周期方面发挥调节作用。