Light-induced Transients of Bioelectric Potential Difference Across a Chenopodium rubrum L. Plant

Biochemie und Physiologie der Pflanzen Pub Date : 1992-11-01 DOI:10.1016/S0015-3796(11)80024-7

Branka Živanović, Mirjana Vuletić, Željko Vučinić

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引用次数: 3

Abstract

An electrical potential difference appears across an intact Chenopodium rubrum L. (Sel. 184) plant, with marked transients induced by light on-off. A study of this potential and the transients was made by means of two electrodes in contact with the bathing solution and the cotyledon of a six-day-old plantlet. We varied the light intensity and wavelength, and worked with green and photobleached (SANDOZ 9789 pretreated) plants. Light intensities below 1.4 W m⁻²2 of white light did not produce any appreciable transients, the amplitude of change of potential difference then increasing to a maximum ≈ 20 W m⁻², where it stayed constant upto light intensities above 100 W m⁻². A maximum in response was obtained at 644 nm and wavelengths>700 nm did not cause any transients. No transients could be observed with bleached or DCMU treated plants. Thus while the participation of the photosynthetic process in the light-induced transients is unequivocal, the participation of a phytochrome coupled component could not be ascertained.

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光诱导红藜植物生物电位差的瞬态变化

完整的红藜(Chenopodium rubrum L.， Sel. 184)植株上存在电位差，且有明显的光开关瞬变。通过两个电极与沐浴液和6日龄植株的子叶接触，对该电位和瞬态进行了研究。我们改变了光强度和波长，并与绿色和光漂白(SANDOZ 9789预处理)的植物一起工作。当白光强度低于1.4 W m−22时，电位差的变化幅度增大到最大值约20 W m−2，直到高于100 W m−2时，电位差的变化幅度保持不变。在644 nm处获得最大响应，而700 nm没有引起任何瞬变。漂白或DCMU处理的植物没有观察到瞬态现象。因此，虽然光合作用过程在光诱导瞬态中的参与是明确的，但光敏色素偶联成分的参与无法确定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biochemie und Physiologie der Pflanzen

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