Mitsuya Shiro, Taniguchi Mitsutaka, Miyake Hiroshi, Takabe Tetsuko
Graduate School of Bioagricultural Sciences, Nagoya University, Chikusa, Nagoya, 464-8601, Japan.
Planta. 2005 Dec;222(6):1001-9. doi: 10.1007/s00425-005-0043-9. Epub 2005 Jul 21.
For plant salt tolerance, it is important to regulate the uptake and accumulation of Na+ ions. The yeast pmp3 mutant which lacks PMP3 gene accumulates excess Na+ ions in the cell and shows increased Na+ sensitivity. Although the function of PMP3 is not fully understood, it is proposed that PMP3 contributes to the restriction of Na+ uptake and consequently salt tolerance in yeasts. In this paper, we have investigated whether the lack of RCI2A gene, homologous to PMP3 gene, causes a salt sensitive phenotype in Arabidopsis (Arabidopsis thaliana (L.) Heynh.) plants; and to thereby indicate the physiological role of RCI2A in higher plants. Two T-DNA insertional mutants of RCI2A were identified. Although the growth of rci2a mutants was comparable with that of wild type under normal conditions, high NaCl treatment caused increased accumulation of Na+ and more reduction of the growth of roots and shoots of rci2a mutants than that of wild type. Undifferentiated callus cultures regenerated from rci2a mutants also accumulated more Na+ than that from wild type under high NaCl treatment. Furthermore, when wild-type and rci2a plants were treated with NaCl, NaNO3, Na2SO4, KCl, KNO3, K2SO4 or LiCl, the rci2a mutants showed more reduction of shoot growth than wild type. Under treatments of tetramethylammonium chloride, CaCl2, MgCl2, mannitol or sorbitol, the growth reduction was comparable between wild-type and rci2a plants. These results suggested that RCI2A plays a role directly or indirectly for avoiding over-accumulation of excess Na+ and K+ ions in plants, and contributes to salt tolerance.
对于植物的耐盐性而言,调节Na⁺离子的吸收和积累至关重要。缺乏PMP3基因的酵母pmp3突变体在细胞中积累过量的Na⁺离子,并表现出对Na⁺的敏感性增加。尽管PMP3的功能尚未完全明确,但据推测PMP3有助于限制Na⁺的吸收,从而提高酵母的耐盐性。在本文中,我们研究了与PMP3基因同源的RCI2A基因的缺失是否会导致拟南芥(Arabidopsis thaliana (L.) Heynh.)植株出现盐敏感表型;并以此揭示RCI2A在高等植物中的生理作用。我们鉴定出了两个RCI2A的T-DNA插入突变体。尽管在正常条件下,rci2a突变体的生长与野生型相当,但高浓度NaCl处理导致rci2a突变体中Na⁺的积累增加,其根和地上部分的生长比野生型受到更大程度的抑制。在高浓度NaCl处理下,由rci2a突变体再生的未分化愈伤组织培养物也比野生型积累了更多的Na⁺。此外,当野生型和rci2a植株用NaCl、NaNO₃、Na₂SO₄、KCl、KNO₃、K₂SO₄或LiCl处理时,rci2a突变体地上部分的生长比野生型受到更大程度的抑制。在氯化铵、氯化钙、氯化镁、甘露醇或山梨醇处理下,野生型和rci2a植株的生长抑制程度相当。这些结果表明,RCI2A直接或间接地发挥作用,避免植物中过量的Na⁺和K⁺离子过度积累,从而有助于提高植物的耐盐性。
