Suzuki Y, Danko S J, Daly J M, Kono Y, Knoche H W, Takeuchi S
Institute of Chemical and Physical Research, Wako-shi, Saitama 351, Japan.
Plant Physiol. 1983 Oct;73(2):440-4. doi: 10.1104/pp.73.2.440.
It previously had been proposed that the host-selective toxin of Helminthosporium maydis race T consists of a series of unusual linear (C(35) to C(45))polyketols, of equal toxicity on a weight or molar (10(-8)-10(-9)) basis. Previous laboratory synthesis of T-toxin analogs was limited to shorter (C(15) to C(26)) versions which possessed the requisite specificity for susceptible corn (Zea mays) but were less toxic on a weight or molar (10(-6)-10(-7)) basis. In the present study, a C(41) analog with four beta-ketol units spaced by CH(2) bridges as in native toxin has been synthesized. On a weight or molar basis, it is as effective as native toxin or its purified components in stimulating NADH oxidation of mitochondria from susceptible corn, thus providing firm evidence for the correctness of the proposed structures of T-toxin. Additional support derives from the observation that C(24) and C(26) analogs with -(CH(2))(4)- and -(CH(2))(6)- bridges between ketol groups are not as effective in stimulating NADH oxidation as are C(23) and C(25) analogs with the -(CH(2))(3)- and -(CH(2))(5)- bridges of native T-toxin.It was calculated that a single molecule of the C(41) analog is at least 300 times more effective in stimulating mitochondrial oxidation than a molecule of the C(23) or C(25) analogs. This emphasizes the importance of chain length for toxicity, perhaps through perturbation of membrane functions of mitochondria and/or chloroplasts.
以前有人提出,玉米小斑病菌T小种的寄主选择性毒素由一系列不寻常的线性(C35至C45)聚酮醇组成,按重量或摩尔(10-8至10-9)计算毒性相同。以前实验室合成的T毒素类似物仅限于较短的(C15至C26)版本,这些版本对敏感玉米(玉米)具有所需的特异性,但按重量或摩尔(10-6至10-7)计算毒性较小。在本研究中,已经合成了一种C41类似物,其具有四个由CH2桥隔开的β-酮醇单元,如同天然毒素一样。按重量或摩尔计算,它在刺激敏感玉米线粒体的NADH氧化方面与天然毒素或其纯化成分一样有效,从而为所提出的T毒素结构的正确性提供了确凿证据。额外的支持来自于以下观察结果:在酮醇基团之间具有-(CH2)4-和-(CH2)6-桥的C24和C26类似物在刺激NADH氧化方面不如具有天然T毒素的-(CH2)3-和-(CH2)5-桥的C23和C25类似物有效。据计算,单个C41类似物分子在刺激线粒体氧化方面比C23或C25类似物分子至少有效300倍。这强调了链长对毒性的重要性,可能是通过干扰线粒体和/或叶绿体的膜功能来实现的。