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The novel avirulence effector AlAvr1 from Ascochyta lentis mediates host cultivar specificity of ascochyta blight in lentil.

Bernadette M HenaresJohannes W DeblerLina M Farfan-CaceresChristina R GrimeRobert A SymeSara N Blake HerdinaJennifer A DavidsonRichard P OliverKaram B SinghLars G KamphuisRobert C Lee
Published in: Molecular plant pathology (2022)
Ascochyta lentis is a fungal pathogen that causes ascochyta blight in the important grain legume species lentil, but little is known about the molecular mechanism of disease or host specificity. We employed a map-based cloning approach using a biparental A. lentis population to clone the gene AlAvr1-1 that encodes avirulence towards the lentil cultivar PBA Hurricane XT. The mapping population was produced by mating A. lentis isolate P94-24, which is pathogenic on the cultivar Nipper and avirulent towards Hurricane, and the isolate AlKewell, which is pathogenic towards Hurricane but not Nipper. Using agroinfiltration, we found that AlAvr1-1 from the isolate P94-24 causes necrosis in Hurricane but not in Nipper. The homologous corresponding gene in AlKewell, AlAvr1-2, encodes a protein with amino acid variation at 23 sites and four of these sites have been positively selected in the P94-24 branch of the phylogeny. Loss of AlAvr1-1 in a gene knockout experiment produced a P94-24 mutant strain that is virulent on Hurricane. Deletion of AlAvr1-2 in AlKewell led to reduced pathogenicity on Hurricane, suggesting that the gene may contribute to disease in Hurricane. Deletion of AlAvr1-2 did not affect virulence for Nipper and AlAvr1-2 is therefore not an avirulence gene for Nipper. We conclude that the hemibiotrophic pathogen A. lentis has an avirulence effector, AlAvr1-1, that triggers a hypersensitive resistance response in Hurricane. This is the first avirulence gene to be characterized in a legume pathogen from the Pleosporales and may help progress research on other damaging Ascochyta pathogens.
Keyphrases
  • copy number
  • genome wide
  • genome wide identification
  • amino acid
  • escherichia coli
  • pseudomonas aeruginosa
  • immune response
  • high resolution
  • candida albicans
  • dna damage
  • cystic fibrosis
  • biofilm formation
  • gram negative