Welch R M, Larue T A
U.S. Department of Agriculture, Agricultural Research Service, U.S. Plant, Soil and Nutrition Laboratory, Tower Road, Ithaca, New York 14853-0331.
Plant Physiol. 1990 Jun;93(2):723-9. doi: 10.1104/pp.93.2.723.
The pea (Pisum sativum L.) mutant, E107 (brz, brz) accumulated extremely high concentrations of Fe in its older leaves when grown in light rooms in either defined nutrient media or potting mix, or outdoors in soil. Leaf symptoms (bronze color and necrosis) were correlated with very high Fe concentrations. When E107 plants were grown in nutrient solutions supplied 10 mum Fe, as the Fe(III)-N,N'-ethylenebis[2-(2-hydroxyphenyl)glycine] chelate, their roots released higher concentrations of Fe(III) reducing substances to the nutrient media than did roots of the normal parent cv, ;Sparkle.' Reciprocal grafting experiments demonstrated that the high concentrations of Fe in the shoot was controlled by the genotype of the root. In short-term (59)Fe uptake studies, 15-day-old E107 seedlings exhibited higher rates of Fe absorption than did ;Sparkle' seedlings under Fe-adequate growth conditions. Iron deficiency induced accelerated short-term Fe absorption rates in both mutant and normal genotypes. Iron-treated E107 roots also released larger amounts of both protons and Fe(III) reductants into their nutrient media than did iron-treated ;Sparkle' roots. Furthermore, the mutant translocated proportionately more Fe to its shoot than did the parent regardless of Fe status.
豌豆(Pisum sativum L.)突变体E107(brz,brz)在光照室中,无论是在特定营养培养基、盆栽混合土中生长,还是在户外土壤中生长,其老叶中都会积累极高浓度的铁。叶片症状(青铜色和坏死)与极高的铁浓度相关。当E107植株在供应10 μM铁(以Fe(III)-N,N'-亚乙基双[2-(2-羟基苯基)甘氨酸]螯合物形式)的营养液中生长时,其根系向营养培养基中释放的Fe(III)还原物质浓度高于正常亲本品种“Sparkle”的根系。 reciprocal grafting experiments demonstrated that the high concentrations of Fe in the shoot was controlled by the genotype of the root. 在短期(⁵⁹)Fe吸收研究中,15日龄的E107幼苗在铁充足的生长条件下,其铁吸收速率高于“Sparkle”幼苗。缺铁诱导突变体和正常基因型的短期铁吸收速率加快。用铁处理过的E107根系向其营养培养基中释放的质子和Fe(III)还原剂也比用铁处理过的“Sparkle”根系多。此外,无论铁状况如何,突变体向地上部转运的铁比例都比亲本高。