Abstract
Protoporphyrin IX is a photosensitizer and a causative agent of rice membrane lipid peroxidation in plant cells. Protoporphyrinogen IX oxidase (PPO) is the molecular target of PPO-inhibiting herbicides, which trigger a massive increase in protoporphyrin IX. Thus, any possible method to decrease the levels of protoporphyrin IX upon challenge with PPO-inhibiting herbicides could be employed to generate plants resistant to such herbicides. We generated transgenic rice plants overexpressing rice ferrochelatase isogenes encoding ferrochelatase enzymes, which convert protoporphyrin IX into protoheme, to see whether the transgenic plants have phenotypes resistant to PPO-inhibiting herbicides. The resulting transgenic rice plants were all susceptible to oxyfluorfen (a diphenyl-ether-type PPO-inhibiting herbicide), as judged by cellular damage with respect to cellular leakage, chlorophyll loss, and lipid peroxidation. In particular, the transgenic plants expressing rice ferrochelatase II without its plastid targeting sequence showed higher transgene expression and oxyfluorfen susceptibility than lines expressing the intact ferrochelatase II. Possible susceptibility mechanisms to oxyfluorfen herbicide in the transgenic rice plants are discussed.
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