Positive selection and intragenic recombination contribute to high allelic diversity in effector genes of M ycosphaerella fijiensis , causal agent of the black leaf streak disease of banana

• Published in: Molecular plant pathology Vol. 15; no. 5; pp. 447 - 460
• Main Authors: Stergiopoulos, Ioannis, Cordovez, Viviane, Ökmen, Bilal, Beenen, Henriek G., Kema, Gert H. J., de Wit, Pierre J. G. M.
• Format: Journal Article
• Language: English
• Published: 01.06.2014
• ISSN: 1464-6722; 1364-3703
• DOI: 10.1111/mpp.12104

Summary Previously, we have determined the nonhost‐mediated recognition of the MfA vr4 and MfE cp2 effector proteins from the banana pathogen M ycosphaerella fijiensis in tomato, by the cognate C f‐4 and C f‐Ecp2 resistance proteins, respectively. These two resistance proteins could thus mediate resistance against M . fijiensis if genetically transformed into banana ( M usa spp.). However, disease resistance controlled by single dominant genes can be overcome by mutated effector alleles, whose products are not recognized by the cognate resistance proteins. Here, we surveyed the allelic variation within the MfA vr4 , MfE cp2 , MfE cp2‐2 and MfE cp2‐3 effector genes of M . fijiensis in a global population of the pathogen, and assayed its impact on recognition by the tomato C f‐4 and C f‐ E cp2 resistance proteins, respectively. We identified a large number of polymorphisms that could reflect a co‐evolutionary arms race between host and pathogen. The analysis of nucleotide substitution patterns suggests that both positive selection and intragenic recombination have shaped the evolution of M . fijiensis effectors. Clear differences in allelic diversity were observed between strains originating from S outh‐ E ast A sia relative to strains from other banana‐producing continents, consistent with the hypothesis that M . fijiensis originated in the A sian‐ P acific region. Furthermore, transient co‐expression of the MfA vr4 effector alleles and the tomato C f‐4 resistance gene, as well as of MfE cp2 , MfE cp2‐2 and MfE cp2‐3 and the putative C f‐ E cp2 resistance gene, indicated that effector alleles able to overcome these resistance genes are already present in natural populations of the pathogen, thus questioning the durability of resistance that can be provided by these genes in the field.