莱茵衣藻y-1中叶绿体发育过程中涉及的叶绿体-细胞质相互关系:叶绿体翻译产物选择性缺失的影响
Chloroplast-cytoplasmic interrelations involved in chloroplast development in Chlamydomonas reinhardi y-1: effect of selective depletion of chloroplast translates.
作者信息
Gershoni J M, Ohad I
出版信息
J Cell Biol. 1980 Oct;87(1):124-31. doi: 10.1083/jcb.87.1.124.
Abstract
Chlamydomonas reinhardi y-1 cells grown in the dark in the presence of chloramphenicol (CD cells) are depleted of photosynthetic membranes and 70S translates. These cells were found to be unable to synthesize chlorophyll in the light until chloroplast protein synthesis was resumed. On the other hand, CD cells acquired the capacity to partially green in the presence of cycloheximide. This greening was characterized by the development of photosynthetic activity, as demonstrated by light-dependent oxygen evolution of whole cells and by measurements of ribulose-1,5-bisphosphate carboxylase and fluorescence kinetics. The chlorophyll synthesized de novo during greening in the absence of 80S ribosomal activity was organized in chlorophyll-protein complexes, as ascertained by low-temperature fluorescence-emission spectra. The morphology of these cells appeared to be normal. A model has been proposed as a working hypothesis, which could account for the phenomena described above and previously reported data pertaining to chloroplast development.
摘要
在氯霉素存在的黑暗条件下培养的莱茵衣藻y-1细胞(CD细胞)缺乏光合膜和70S核糖体。这些细胞在光照下无法合成叶绿素,直到叶绿体蛋白质合成恢复。另一方面,CD细胞在环己酰亚胺存在下获得了部分变绿的能力。这种变绿的特征是光合活性的发展,这通过全细胞的光依赖性氧气释放以及核酮糖-1,5-二磷酸羧化酶的测量和荧光动力学得到证明。通过低温荧光发射光谱确定,在缺乏80S核糖体活性的情况下绿化过程中重新合成的叶绿素被组织在叶绿素-蛋白质复合物中。这些细胞的形态似乎是正常的。已经提出了一个模型作为工作假设,它可以解释上述现象以及先前报道的与叶绿体发育相关的数据。
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