AbstractTechniques using R. communis were modified to enable the movement of chemicals in phloem and the factors controlling their distribution in the plant to be described quantitatively. The non‐ionised chemicals tested, aminotriazole, O‐methylcarbamoyloximes (including aldoxycarb and oxamyl) and phenylureas, spanning a range of lipophilicity of log KOW= −0.87 to +2.27, all freely entered the phloem. However, only the more polar compounds were retained sufficiently in the phloem to be transported over long distances, indicating that polar compounds cross cell membranes more slowly than compounds of intermediate lipophilicity; these findings substantiate the ‘intermediate permeability hypothesis’ of phloem translocation of xenobiotics. However, the amount of chemical reaching or retained in the sink tissues, especially in the root, was small even for the chemicals that were translocated best in t
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机译:摘要对使用红皮部的技术进行了修改,以定量描述韧皮部中化学物质的运动以及控制其在植物中分布的因素。测试的非离子化化学物质,氨基三唑、O-甲基氨基甲酰肟(包括醛氧基威和草酰基)和苯脲,其亲脂性范围为log KOW= −0.87至+2.27,均自由进入韧皮部。然而,只有极性较强的化合物在韧皮部中充分保留以进行长距离运输,这表明极性化合物比中等亲脂性的化合物穿过细胞膜的速度更慢;这些发现证实了韧皮部易位异生素的“中间渗透性假说”。然而,到达或保留在水槽组织中的化学物质量,特别是在根部,即使对于在 t 中易位最好的化学物质也是如此
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