Upstream and downstream signals of nitric oxide in pathogen defence

Nitric oxide (NO) is now recognised as a crucial player in plant defence against pathogens. Considerable progress has been made in defining upstream and downstream signals of NO. Recently, MAP kinases, cyclic nucleotide phosphates, calcium and phosphatidic acid were demonstrated to be involved in pathogen-induced NO-production. However, the search for inducers of NO synthesis is difficult because of the still ambiguous enzymatic source of NO. Accumulation of NO triggers signal transduction by other second messengers. Here we depict NON-EXPRESSOR OF PATHOGENESIS-RELATED 1 and glyceraldehyde-3-phosphate dehydrogenase as central redox switches translating NO redox signalling into cellular responses. Although the exact position of NO in defence signal networks is unresolved at last some NO-related signal cascades are emerging.

► Advances in understanding the role of NO in pathogen defence signalling are reviewed. ► New upstream and downstream signals of NO include MAP kinases, phosphatidic acid, cyclic nucleotides and calcium. ► Signal cascades involving NO are discussed. ► The proteins NPR1 and GAPDH are possible central redox switches in NO-related defence signalling.