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TaTLP1 interacts with TaPR1 to contribute to wheat defense responses to leaf rust fungus
Author(s) -
Fei Wang,
Yuan Shi-tao,
Wenyue Wu,
Yiqing Yang,
Zhongchi Cui,
Haiyan Wang,
Daqun Liu
Publication year - 2020
Publication title -
plos genetics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.587
H-Index - 233
eISSN - 1553-7404
pISSN - 1553-7390
DOI - 10.1371/journal.pgen.1008713
Subject(s) - bimolecular fluorescence complementation , biology , gene knockdown , plant disease resistance , gene silencing , plant defense against herbivory , two hybrid screening , complementation , reactive oxygen species , wheat leaf rust , gene , pathogenesis related protein , rust (programming language) , immunoprecipitation , genetics , protein–protein interaction , fungus , microbiology and biotechnology , phenotype , botany , gene expression , virulence , computer science , programming language
Thaumatin-like proteins (TLPs), which are defined as pathogenesis-related protein family 5 (PR5) members, are common plant proteins involved in defense responses and confer antifungal activity against many plant pathogens. Our earlier studies have reported that the TaTLP1 gene was isolated from wheat and proved to be involved in wheat defense in response to leaf rust attack. The present study aims to identify the interacting proteins of TaTLP1 and characterize the role of the interaction between wheat and Puccinia triticina ( Pt ). Pull-down experiments designed to isolate the molecular target of TaTLP1 in tobacco resulted in the identification of TaPR1, a pathogenesis-related protein of family 1, and the interaction between TaTLP1 and TaPR1 was confirmed by yeast two-hybrid experiments (Y2H), bimolecular fluorescence complementation (BiFC), and co-immunoprecipitation (Co-IP). In vitro , TaTLP1 and TaPR1 together increased antifungal activity against Pt . In vivo , the disease resistance phenotype, histological observations of fungal growth and host responses, and accumulation of H 2 O 2 in TaTLP1-TaPR1 in co-silenced plants indicated that co-silencing significantly enhanced wheat susceptibility compared to single knockdown TaTLP1 or TaPR1 plants. The accumulation of reactive oxygen species (ROS) was significantly reduced in co-silenced plants compared to controls during Pt infection, which suggested that the TaTLP1-TaPR1 interaction positively modulates wheat resistance to Pt in an ROS-dependent manner. Our findings provide new insights for understanding the roles of two different PRs, TaTLP1 and TaPR1, in wheat resistance to leaf rust.

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