| "Death don't have no mercy: Cell death programs in plant-microbe interactions." |
| Plant Cell 8, 1793-1807. |
| Summary "A nearly ubiquitous feature of plant-pathogen interactions is host cell death. In its most recognizable form, host cell death is manifested as the rapid collapse of tissue, termed the hypersensitive response (HR). This response accompanies "incompatible interactions" and leads to disease resistance. As detailed below, the HR is programmed genetically in the plant and is a consequence of new host transcription and translation (Dixon et al., 1994; Godiard et al., 1994). The HR is a correlative feature of many but not all incompatible interactions controlled by classic disease resistance (R) genes (Dangl, 1995; Staskawicz et al., 1995; see also Bent, 1996, in this is- sue). A local HR is often associated with the onset of systemic acquired resistance (SAR; Chester, 1933; Enyedi et al., 1992; Ryals et al., 1994, 1996, in this issue) in dista1 plant tissues. In addition, sites of the HR are invariably focal points for transcriptional induction of plant defense genes in neighboring cells (Somssich et al., 1988; Schmelzer et al., 1989). Subsequent biosynthesis of protective secondary metabolites and cell wall buttressing around the HR site are also thought to contribute to overall pathogen containment. Signals derived from cells undergoing the HR apparently contribute significantly to the induction of defense gene transcription in adjacent cells. However, certain bacterial mutants unable to elicit an HR are still competent to trigger the transcription of defense genes that are normally induced during both incompatible and compatible interactions (Jakobek and Lindgren, 1993)." |