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Cloning and Characterization of Two Novel PR4 Genes from Picea asperata

Weidong Zhao, Li‐Juan Liu, Chengsong Li, Chunlin Yang, Shujiang Li, Shan Han, Tiantian Lin, Yinggao Liu

2022International Journal of Molecular Sciences11 citationsDOIOpen Access PDF

Abstract

Pathogenesis-related (PR) proteins are important in plant pathogenic resistance and comprise 17 families, including the PR4 family, with antifungal and anti-pathogenic functions. PR4 proteins contain a C-terminal Barwin domain and are divided into Classes I and II based on the presence of an N-terminal chitin-binding domain (CBD). This study is the first to isolate two PR4 genes, PaPR4-a and PaPR4-b, from Picea asperata, encoding PaPR4-a and PaPR4-b, respectively. Sequence analyses suggested that they were Class II proteins, owing to the presence of an N-terminal signal peptide and a C-terminal Barwin domain, but no CBD. Tertiary structure analyses using the Barwin-like protein of papaya as a template revealed structural similarity, and therefore, functional similarity between the proteins. Predictive results revealed an N-terminal transmembrane domain, and subcellular localization studies confirmed its location on cell membrane and nuclei. Real-time quantitative PCR (RT-qPCR) demonstrated that PaPR4-a and PaPR4-b expression levels were upregulated following infection with Lophodermium piceae. Additionally, PaPR4-a and PaPR4-b were induced in Escherichia coli, where the recombinant proteins existed in inclusion bodies. The renatured purified proteins showed antifungal activity. Furthermore, transgenic tobacco overexpressing PaPR4-a and PaPR4-b exhibited improved resistance to fungal infection. The study can provide a basis for further molecular mechanistic insights into PR4-induced defense responses.

Topics & Concepts

BiologySignal peptideGeneTransmembrane domainEscherichia coliStructural similarityInclusion bodiesCloning (programming)Transmembrane proteinPeptide sequenceRecombinant DNABiochemistryAmino acidMolecular biologyMicrobiologyReceptorComputer scienceProgramming languagePlant-Microbe Interactions and ImmunityStudies on Chitinases and ChitosanasesLegume Nitrogen Fixing Symbiosis
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