Abstract
EMBRYO SAC1-4 (ES1-4) peptides belong to the defensin subgroup of cysteine-rich peptides known to mediate pollen tube burst in Zea mays (maize). ES1-4 are reported here to also be capable of inhibiting germination and growth of the maize fungal pathogens Fusarium graminearum and Ustilago maydis at higher concentrations. Dividing the peptides into smaller pieces showed that a 15-amino-acid peptide located in a highly variable loop region lacking similarity to other defensins or defensin-like peptides binds to maize pollen tube surfaces, causing swelling prior to burst. This peptide fragment and a second conserved neighbouring fragment showed suppression of fungal germination and growth. The two peptides caused swelling of fungal cells, production of reactive oxygen species, and finally the formation of big vacuoles prior to burst at high peptide concentration. Furthermore, peptide fragments were found to bind differently to fungal cells. In necrotrophic F. graminearum, a peptide fragment named ES-d bound only at cell surfaces whereas the peptide ES-c bound at cell surfaces and also accumulated inside cells. Conversely, in biotrophic U. maydis, both peptide fragments accumulated inside cells, but, if applied at higher concentration, ES-c but not ES-d accumulated mainly in vacuoles. Mapping of peptide interaction sites identified amino acids differing in pollen tube burst and fungal response reactions. In summary, these findings indicate that residues targeting pollen tube burst in maize are specific to the ES family, while residues targeting fungal growth are conserved within defensins and defensin-like peptides.
Highlights
The EMBRYO SAC (ES) gene family of maize consists of four members, ES1 to ES4, which are highly similar to each other and encode small cysteine-rich peptide precursors of 91 to 92 amino acids length (Cordts et al, 2001)
The results showed that a mutation of Leu3, Ile4, or Tyr15 in ES-d suppressed maize pollen tube burst to
Application of ES4 caused a significant delay of pollen tube rupture in the close maize relative eastern gamagrass (Tripsacum dactyloides) but did not have any effect on tubes of unrelated maize species such as tobacco (Nicotiana benthamiana and N. tabaccum) or lily (Hemerocallis fulva)
Summary
The EMBRYO SAC (ES) gene family of maize consists of four members, ES1 to ES4, which are highly similar to each other and encode small cysteine-rich peptide precursors of 91 to 92 amino acids length (Cordts et al, 2001). Mature ES peptides of 61-amino-acid length appear to fold through four disulfide bridges (Cordts et al, 2001; Amien et al, 2010). In plants, they include lectins/ antimicrobial peptides, proteinase/amylase inhibitors, and γ-thionins. They include lectins/ antimicrobial peptides, proteinase/amylase inhibitors, and γ-thionins They are sometimes described as knottins or cysteine-knot peptides of small inhibitors, toxins, and lectins
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