一种玉米核糖体失活蛋白受转录激活因子不透明-2的调控。
A maize ribosome-inactivating protein is controlled by the transcriptional activator Opaque-2.
作者信息
Bass H W, Webster C, OBrian G R, Roberts J K, Boston R S
机构信息
Department of Botany, North Carolina State University, Raleigh 27695.
出版信息
Plant Cell. 1992 Feb;4(2):225-34. doi: 10.1105/tpc.4.2.225.
Abstract
Although synthesis of the cytosolic maize albumin b-32 had been shown to be controlled by the Opaque-2 regulatory locus, its function was unknown. We show here that b-32 is a member of the large and widely distributed class of toxic plant proteins with ribosome-inactivating activity. These ribosome-inactivating proteins (RIPs) are RNA N-glycosidases that remove a single base from a conserved 28S rRNA loop required for elongation factor 1 alpha binding. Cell-free in vitro translation extracts were used to show that both maize and wheat ribosomes were resistant to molar excesses of b-32 but not to the dicotyledonous RIP gelonin. We extracted RIP activity from kernels during seed maturation and germination. The amount of RIP activity increased during germination, although the amount of b-32 protein remained fairly constant. Expression of a maize RIP gene under the control of an endosperm-specific transcriptional regulatory may be an important clue prompting investigation of the biological basis for RIP expression in seeds of other plants.
摘要
虽然已证明胞质玉米白蛋白b - 32的合成受不透明-2调控位点控制,但其功能尚不清楚。我们在此表明,b - 32是具有核糖体失活活性的一大类广泛分布的有毒植物蛋白中的一员。这些核糖体失活蛋白(RIPs)是RNA N - 糖苷酶,它们从延伸因子1α结合所需的保守28S rRNA环中去除单个碱基。无细胞体外翻译提取物用于表明玉米和小麦核糖体对摩尔过量的b - 32具有抗性,但对双子叶植物RIP格列诺因不具有抗性。我们在种子成熟和萌发过程中从籽粒中提取RIP活性。虽然b - 32蛋白的量保持相当恒定,但RIP活性的量在萌发过程中增加。在胚乳特异性转录调控下玉米RIP基因的表达可能是促使研究其他植物种子中RIP表达生物学基础的重要线索。
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