Waters Brian M, Blevins Dale G, Eide David J
Department of Agronomy, University of Missouri, Columbia, Missouri 65211, USA.
Plant Physiol. 2002 May;129(1):85-94. doi: 10.1104/pp.010829.
To acquire iron, many plant species reduce soil Fe(III) to Fe(II) by Fe(III)-chelate reductases embedded in the plasma membrane of root epidermal cells. The reduced product is then taken up by Fe(II) transporter proteins. These activities are induced under Fe deficiency. We describe here the FRO1 gene from pea (Pisum sativum), which encodes an Fe(III)-chelate reductase. Consistent with this proposed role, FRO1 shows similarity to other oxidoreductase proteins, and expression of FRO1 in yeast conferred increased Fe(III)-chelate reductase activity. Furthermore, FRO1 mRNA levels in plants correlated with Fe(III)-chelate reductase activity. Sites of FRO1 expression in roots, leaves, and nodules were determined. FRO1 mRNA was detected throughout the root, but was most abundant in the outer epidermal cells. Expression was detected in mesophyll cells in leaves. In root nodules, mRNA was detected in the infection zone and nitrogen-fixing region. These results indicate that FRO1 acts in root Fe uptake and they suggest a role in Fe distribution throughout the plant. Characterization of FRO1 has also provided new insights into the regulation of Fe uptake. FRO1 expression and reductase activity was detected only in Fe-deficient roots of Sparkle, whereas both were constitutive in brz and dgl, two mutants with incorrectly regulated Fe accumulation. In contrast, FRO1 expression was responsive to Fe status in shoots of all three plant lines. These results indicate differential regulation of FRO1 in roots and shoots, and improper FRO1 regulation in response to a shoot-derived signal of iron status in the roots of the brz and dgl mutants.
为了获取铁元素,许多植物物种通过位于根表皮细胞质膜上的铁(III)螯合物还原酶将土壤中的铁(III)还原为铁(II)。还原产物随后被铁(II)转运蛋白吸收。这些活性在缺铁条件下被诱导。我们在此描述了来自豌豆(Pisum sativum)的FRO1基因,它编码一种铁(III)螯合物还原酶。与这一推测的作用一致,FRO1与其他氧化还原酶蛋白具有相似性,并且FRO1在酵母中的表达赋予了其增强的铁(III)螯合物还原酶活性。此外,植物中FRO1 mRNA水平与铁(III)螯合物还原酶活性相关。我们确定了FRO1在根、叶和根瘤中的表达位点。在整个根中都检测到了FRO1 mRNA,但在根外表皮细胞中最为丰富。在叶肉细胞中也检测到了表达。在根瘤中,在感染区和固氮区检测到了mRNA。这些结果表明FRO1在根吸收铁元素过程中发挥作用,并且提示其在铁元素在植物体内的分布中也有作用。对FRO1的表征也为铁吸收的调控提供了新的见解。仅在缺铁的Sparkle豌豆根中检测到FRO1的表达和还原酶活性,而在brz和dgl这两个铁积累调控异常的突变体中,二者都是组成型的。相比之下,在所有这三个品系的地上部分,FRO1的表达对铁状态有响应。这些结果表明FRO1在根和地上部分受到不同的调控,并且在brz和dgl突变体的根中,FRO1对来自地上部分的铁状态信号的响应调控不当。