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Suppression of Plant Immunity by Fungal Chitinase-like Effectors.

Curr Biol. 2018; 
Fiorin GL, Sanchéz-Vallet A, Thomazella DPT, do Prado PFV, do Nascimento LC, Figueira AVO, Thomma BPHJ, Pereira GAG, Teixeira PJPL.
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Codon Optimization MpChiMBS, MrChi and MR05413 were synthesized (GenScript and Eurofins) without the signal peptide sequence with codons optimized for Escherichia coli.... Cells were treated with 10 nM NAG6 (Santa Cruz Biotechnology), 100 nM flg22 (GenScript) or 100 nM of re- combinant proteins. Get A Quote

摘要

Crop diseases caused by fungi constitute one of the most important problems in agriculture, posing a serious threat to food security [1]. To establish infection, phytopathogens interfere with plant immune responses [2, 3]. However, strategies to promote virulence employed by fungal pathogens, especially non-model organisms, remain elusive [4], mainly because fungi are more complex and difficult to study when compared to the better-characterized bacterial pathogens. Equally incomplete is our understanding of the birth of microbial virulence effectors. Here, we show that the cacao pathogen Moniliophthora perniciosa evolved an enzymatically inactive chitinase (MpChi) that functions as a putative pathogenicity fac... More

关键词

GH18; LysM; MAMP-triggered immunity; Moniliophthora; cacao; chitin; effector; frosty pod rot; neofunctionalization; witches’ broom disease
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