Vally KJM., Selvi M. T., Sharma R.
School of Life Sciences, University of Hyderabad, Hyderabad-500 046, India.
Plant Physiol. 1995 Oct;109(2):517-523. doi: 10.1104/pp.109.2.517.
In pearl millet (Pennisetum americanum) seedlings, although the cytosolic phosphorylase was present in all organs, the plastidic phosphorylase was restricted to the leaf. Intercellular fractionation of the leaf revealed that cytosolic and plastidic phosphorylase were localized in the mesophyll and bundle-sheath cells, respectively. In dark-grown leaves phosphorylase activity increased from the leaf base to the tip. The dark-grown leaves possessed both cytosolic and plastidic phosphorylase isoforms; however, their distribution followed different patterns along the length of the leaf. The plastidic phosphorylase level increased from the base to the tip of the leaf, and the cytosolic phosphorylase level was higher in the basal half of the leaf and declined toward the tip. In light-grown leaves phosphorylase activity was higher in a region near the leaf base and declined toward the leaf tip. Light stimulated cytosolic phosphorylase level and repressed plastidic phosphorylase level, resulting in an altered distribution of the respective phosphorylase isoforms along the length of the light-grown leaf. Since pearl millet leaf possesses a cell maturity and chloroplast development gradient from the leaf base to the tip, the inverse effect of light on cytosolic and plastidic phosphorylase levels might have been determined by its interaction with these gradients.
在珍珠粟(美洲狼尾草)幼苗中,尽管胞质磷酸化酶存在于所有器官中,但质体磷酸化酶仅局限于叶片。对叶片进行细胞分级分离显示,胞质磷酸化酶和质体磷酸化酶分别定位于叶肉细胞和维管束鞘细胞中。在黑暗中生长的叶片中,磷酸化酶活性从叶基部向叶尖逐渐增加。黑暗中生长的叶片同时拥有胞质和质体磷酸化酶同工型;然而,它们沿叶片长度的分布遵循不同的模式。质体磷酸化酶水平从叶基部向叶尖增加,而胞质磷酸化酶水平在叶片基部的一半较高,并向叶尖下降。在光照下生长的叶片中,磷酸化酶活性在叶基部附近的区域较高,并向叶尖下降。光照刺激了胞质磷酸化酶水平,抑制了质体磷酸化酶水平,导致各自的磷酸化酶同工型在光照下生长的叶片长度上的分布发生改变。由于珍珠粟叶片从叶基部到叶尖具有细胞成熟度和叶绿体发育梯度,光照对胞质和质体磷酸化酶水平的相反影响可能是由其与这些梯度的相互作用决定的。