[No authors listed]
Nitric oxide (NO) is involved together with reactive oxygen species in the activation of various stress responses in plants. We have used ozone (Oâ) as a tool to elicit stress responses, and to activate cell death in plant leaves. Here, we have investigated the roles and interactions of and NO in the induction and regulation of Oâ-induced cell death. Treatment with Oâ induced a rapid accumulation of NO, which started from guard cells, spread to adjacent epidermal cells and eventually moved to mesophyll cells. During the later time points, NO production coincided with the formation of hypersensitive response (HR)-like lesions. The NO donor sodium nitroprusside (SNP) and Oâ individually induced a large set of defence-related genes; however, in a combined treatment SNP attenuated the Oâ induction of salicylic acid (SA) biosynthesis and other defence-related genes. Consistent with this, SNP treatment also decreased Oâ-induced SA accumulation. The Oâ-sensitive mutant rcd1 was found to be an NO overproducer; in contrast, Atnoa1/rif1 (Arabidopsis nitric oxide associated 1/resistant to inhibition by FSM1), a mutant with decreased production of NO, was also Oâ sensitive. This, together with experiments combining Oâ and the NO donor SNP suggested that NO can modify signalling, hormone biosynthesis and gene expression in plants during Oâ exposure, and that a functional NO production is needed for a proper Oâ response. In summary, NO is an important signalling molecule in the response to Oâ.
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