Among these are HopAB2 (AvrPtoB) from P syringae [57] and oomyce

Among these are HopAB2 (AvrPtoB) from P. syringae [57] and oomycete effectors such as Phytophthora sojae Avr1b [58], which have been shown to inhibit defense-like PCD triggered in plants by other effectors

or by the pro-apoptotic mammalian BAX protein. Similarly, the P. infestans this website effector AVR3aKI can suppress PCD triggered by the PAMP, INF1 in Nicotiana benthamiana [59]. These effectors can be annotated with “”GO:0034054 negative regulation by symbiont of host defense-related programmed cell death”". In contrast to biotrophs and hemibiotrophs, necrotrophs induce PCD in order to colonize their host [60]. For example, the Nep1-like protein NPPPs (previously called PsojNIP) from the hemibiotrophic oomycete pathogen P. sojae causes necrosis in soybean. Its expression during the transition from biotrophy to necrotrophy [61] suggests its effector role is to manipulate PCD to the advantage of the pathogen. This role can be described jointly with the two GO terms “”GO:0052042 positive regulation by symbiont of host programmed cell death”" and “”GO:0009405 pathogenesis”".

The specific processes that contribute to ETI and PTI are complex and many of their details remain a mystery. However, ongoing characterization of individual effectors has revealed new insights into the various defense YH25448 purchase find more mechanisms deployed by the host and subject to interference by the symbiont. One method of defense suppression involves inactivation, modification, or suppression of host defense proteins. For example, XopD and AvrXv4 from Xanthomonas campestris are cysteine proteases that have been predicted to remove SUMO (small ubiquitin-like modifier) modifications from components of until the defense pathways (reviewed in [62]). The P. syringae effectors AvrRpt2 and HopAR1 (AvrPphB) also function as cysteine proteases [63, 64] while the fungal effector AvrPita from Magnaporthe oryzae is a zinc metalloprotease [65]. These effectors can be annotated with the term “”GO:0052014 catabolism by symbiont of host protein”". Inhibition of host

hydrolytic enzymes is another mechanism by which effectors interfere with the functions of host defense proteins. For example, the extracellular fungal effectors Avr2 and Avr4 from Cladosporium fulvum can inhibit the tomato extracellular protease, Rcr3 [66], and host chitinases [67] respectively. In oomycetes, the glucanase inhibitor protein (GIP1) secreted by P. sojae inhibits endoglucanse ability of the plant host [68] and apoplastic effectors EPI1 and EPI10 from P. infestans inhibit the P69B subtilase of tomato [69, 70]. These host hydrolase inhibitors can be described with “”GO:0052053 negative regulation by symbiont of host enzyme activity”". Hallmarks of PTI include not only deployment of defense proteins but also deposition of callose in the host cell wall.

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