Karthikeyan Athikkattuvalasu S, Varadarajan Deepa K, Mukatira Uthappa T, D'Urzo Matilde Paino, Damsz Barbara, Raghothama Kashchandra G
Department of Horticulture and Landscape Architecture, Purdue University, West Lafayette, Indiana 47907-1165, USA.
Plant Physiol. 2002 Sep;130(1):221-33. doi: 10.1104/pp.020007.
Phosphorus deficiency is one of the major abiotic stresses affecting plant growth. Plants respond to the persistent deficiency of phosphate (Pi) by coordinating the expression of genes involved in alleviation of the stress. The high-affinity Pi transporters are among the major molecular determinants that are activated during Pi stress. In this study, using three reporter genes (green fluorescent protein, luciferase, and beta-glucuronidase) regulated by two Pi transporter promoters, we have carried out an extensive analysis of transcriptional and spatial regulation of gene expression. Activation of the genes was rapid, repressible, and specific in response to changes in Pi availability. The phytohormones auxin and cytokinin suppressed the expression of the reporter gene driven by the AtPT1 promoter, and that of the native gene, suggesting that hormones may be involved in regulation of some component(s) of Pi starvation response pathway. These studies also provide molecular evidence for a potential role of high-affinity Pi transporters in mobilizing Pi into reproductive organs. The results suggest that members of the Pi transporter family may have similar but nonredundant functions in plants.
磷缺乏是影响植物生长的主要非生物胁迫之一。植物通过协调参与缓解胁迫的基因表达来应对持续的磷酸盐(Pi)缺乏。高亲和力Pi转运蛋白是Pi胁迫期间被激活的主要分子决定因素之一。在本研究中,我们使用由两个Pi转运蛋白启动子调控的三个报告基因(绿色荧光蛋白、荧光素酶和β-葡萄糖醛酸酶),对基因表达的转录和空间调控进行了广泛分析。基因的激活对Pi有效性的变化反应迅速、可抑制且具有特异性。植物激素生长素和细胞分裂素抑制了由AtPT1启动子驱动的报告基因以及天然基因的表达,这表明激素可能参与了Pi饥饿响应途径某些成分的调控。这些研究还为高亲和力Pi转运蛋白在将Pi转运到生殖器官中的潜在作用提供了分子证据。结果表明,Pi转运蛋白家族成员在植物中可能具有相似但非冗余的功能。