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Net sodium fluxes change significantly at anatomically distinct root zones of rice (Oryza sativa L.) seedlings

作  者:Zhou QY, Wang L, Cai, X, Wang D, Hua XJ, Qu LQ , Lin JX, Chen T
影响因子:2.677
刊物名称:Journal of Plant Physiology
出版年份:Jul 15 2011
卷:168  期:11  页码:1249-1255

论文摘要:

 Casparian bands of endodermis and exodermis play crucial roles in blocking apoplastic movement of ions and water into the stele of roots through the cortex. These apoplastic barriers differ considerably in structure and function along the developing root. The present study assessed net Na(+) fluxes in anatomically distinct root zones of rice seedlings and analyzed parts of individual roots showing different Na(+) uptake. The results indicated that anatomically distinct root zones contributed differently to the overall uptake of Na(+). The average Na(+) uptake in root zones in which Casparian bands of the endo- and exo-dermis were interrupted by initiating lateral root primordia (root zone III) was significantly greater than that at the root apex, where Casparian bands were not yet formed (root zone I), or in the region where endo- and exo-dermis with Casparian bands were well developed (root zone II). The measurement of net Na(+) fluxes using a non-invasive scanning ion-selective electrode technique (SIET) demonstrated that net Na(+) flux varied significantly in different positions along developing rice roots, and a net Na(+) influx was obvious at the base of young lateral root primordia. Since sodium fluxes changed significantly along developing roots of rice seedlings, we suggest that the significantly distinct net Na(+) flux profile may be attributed to different apoplastic permeability due to lateral root primordia development for non-selective apoplastic bypass of ions along the apoplast.
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