Vitale, StefaniaPartida Hanon, AngelicaSerrano, SorayaMartínez del Pozo, ÁlvaroDi Pietro, AntonioTurrà, DavidBruix, Marta2023-06-172023-06-172017-011083-351X10.1074/jbc.M116.766311https://hdl.handle.net/20.500.14352/17659During sexual development, ascomycete fungi produce two types of peptide pheromones termed a and α. The α pheromone from the budding yeast Saccharomyces cerevisiae, a thirteen residue peptide which elicits cell cycle arrest and chemotropic growth, has served as paradigm for the interaction of small peptides with their cognate G protein-coupled receptors (GPCRs). However, no structural information is currently available for α pheromones from filamentous ascomycetes, which are significantly shorter and share almost no sequence similarity with the S. cerevisiae homolog. High-resolution structure of synthetic α-pheromone from the plant pathogenic ascomycete Fusarium oxysporum revealed the presence of a central β-turn resembling that of its yeast counterpart. Disruption of the fold by Dalanine substitution of the conserved central Gly6-Gln7 residues or by random sequence scrambling demonstrated a crucial role for this structural determinant in chemoattractant activity. Unexpectedly, the growth inhibitory effect of F. oxysporum α-pheromone was independent of the cognate GPCR Ste2 and of the central β-turn but instead required two conserved Trp1-Cys2 residues at the N-terminus. These results indicate that, in spite of their reduced size, fungal α-pheromones contain discrete functional regions with a defined secondary structure that regulate diverse biological processes such as polarity reorientation and cell division.engjournal articlehttp://www.jbc.org/content/early/2017/01/18/jbc.M116.766311open access577.1Fusarium oxysporumα-pheromonechemotropismhyphal growth inhibitionBiología molecular (Química)Bioquímica (Química)