豆科作物和水稻钼素吸收与运转的研究
Studies on molybdenum absorption and transport in bean and rice.
机构信息
Biology and Agriculture Division, Bhabha Atomic Research Centre, Bombay 400 085, India.
出版信息
Plant Physiol. 1978 Aug;62(2):179-81. doi: 10.1104/pp.62.2.179.
The patterns of molybdenum (MoO(4) (2-)) absorption and transport were investigated in intact bean (Phaseolus vulgaris L.) and rice (Oryza sativa L. cv. I.R.8) plants. The mobility of MoO(4) (2-) absorbed by roots and by leaves was compared with that of a freely mobile element, Rb(+). Although MoO(4) (2-) absorption by bean roots was nearly as high as that of Rb(+), its transport to the shoot was considerably less. When MoO(4) (2-) was fed to one of the primary leaves, most of it was transported to the stem and root. Evidence obtained here showed that MoO(4) (2-) was mobile. Experiments with intact rice seedlings revealed large differences in the absorption and transport of MoO(4) (2-) between the plants grown in CaSO(4) and those in Hoagland solution. Molybdate uptake by excised rice roots was suggested to be an active process since it was greatly inhibited by a metabolic inhibitor. The presence of Mn(2+), Zn(2+), Cu(2+), CI(-), or SO(4) (2-) in the absorption medium reduced MoO(4) (2-) uptake which was markedly enhanced by the presence of Fe(2+).
我们研究了完整的菜豆(Phaseolus vulgaris L.)和水稻(Oryza sativa L. cv. I.R.8)植株中钼(MoO(4) (2-))的吸收和转运模式。我们比较了根部和叶片吸收的 MoO(4) (2-)的移动性与自由移动元素 Rb(+)的移动性。尽管菜豆根部对 MoO(4) (2-)的吸收几乎与 Rb(+)一样高,但向地上部分的转运却明显较少。当 MoO(4) (2-)被喂给其中一片初生叶时,大部分 MoO(4) (2-)被转运到茎和根。这里获得的证据表明 MoO(4) (2-)是可移动的。用完整的水稻幼苗进行的实验表明,在 CaSO(4)和 Hoagland 溶液中生长的植物之间,MoO(4) (2-)的吸收和转运存在很大差异。离体水稻根对钼酸盐的吸收被认为是一个主动过程,因为它受到代谢抑制剂的强烈抑制。在吸收介质中存在 Mn(2+)、Zn(2+)、Cu(2+)、CI(-)或 SO(4) (2-)会降低 MoO(4) (2-)的摄取,而 Fe(2+)的存在则显著增强了 MoO(4) (2-)的摄取。
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