| Literature DB >> 33082226 |
Yeqiang Xia1,2,3, Zhenchuan Ma1,2,3, Min Qiu1,2,3, Baodian Guo1,2,3, Qi Zhang1,2,3, Haibin Jiang1,2,3, Baiyu Zhang1,2,3, Yachun Lin1,2,3, Mingrun Xuan1,2,3, Liang Sun1,2,3, Haidong Shu1,2,3, Junhua Xiao1,2,3, Wenwu Ye1,2,3, Yan Wang1,2,3, Yiming Wang1,2,3, Suomeng Dong1,2,3, Brett M Tyler4,5, Yuanchao Wang6,2,3.
Abstract
Hosts and pathogens are engaged in a continuous evolutionary struggle for physiological dominance. A major site of this struggle is the apoplast. In Phytophthora sojae-soybean interactions, PsXEG1, a pathogen-secreted apoplastic endoglucanase, is a key focal point of this struggle, and the subject of two layers of host defense and pathogen counterdefense. Here, we show that N-glycosylation of PsXEG1 represents an additional layer of this coevolutionary struggle, protecting PsXEG1 against a host apoplastic aspartic protease, GmAP5, that specifically targets PsXEG1. This posttranslational modification also attenuated binding by the previously described host inhibitor, GmGIP1. N-glycosylation of PsXEG1 at N174 and N190 inhibited binding and degradation by GmAP5 and was essential for PsXEG1's full virulence contribution, except in GmAP5-silenced soybeans. Silencing of GmAP5 reduced soybean resistance against WT P. sojae but not against PsXEG1 deletion strains of P. sojae. The crucial role of N-glycosylation within the three layers of defense and counterdefense centered on PsXEG1 highlight the critical importance of this conserved apoplastic effector and its posttranslational modification in Phytophthora-host coevolutionary conflict.Entities:
Keywords: N-glycosylation; P. sojae; apoplast; aspartic protease; immunity
Mesh:
Substances:
Year: 2020 PMID: 33082226 DOI: 10.1073/pnas.2012149117
Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN: 0027-8424 Impact factor: 11.205