Discovery of genes affecting resistance of barley to adapted and non-adapted powdery mildew fungi

Dimitar Douchkov, Stefanie Lück, Annika Johrde, Daniela Nowara, Axel Himmelbach, Jeyaraman Rajaraman, Nils Stein, Rajiv Sharma, Benjamin Kilian, Patrick Schweizer*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

38 Citations (Scopus)
68 Downloads (Pure)


BACKGROUND: Non-host resistance, NHR, to non-adapted pathogens and quantitative host resistance, QR, confer durable protection to plants and are important for securing yield in a longer perspective. However, a more targeted exploitation of the trait usually possessing a complex mode of inheritance by many quantitative trait loci, QTLs, will require a better understanding of the most important genes and alleles.

RESULTS: Here we present results from a transient-induced gene silencing, TIGS, approach of candidate genes for NHR and QR in barley against the powdery mildew fungus Blumeria graminis. Genes were selected based on transcript regulation, multigene-family membership or genetic map position. Out of 1,144 tested RNAi-target genes, 96 significantly affected resistance to the non-adapted wheat- or the compatible barley powdery mildew fungus, with an overlap of four genes. TIGS results for QR were combined with transcript regulation data, allele-trait associations, QTL co-localization and copy number variation resulting in a meta-dataset of 51 strong candidate genes with convergent evidence for a role in QR.

CONCLUSIONS: This study represents an initial, functional inventory of approximately 3% of the barley transcriptome for a role in NHR or QR against the powdery mildew pathogen. The discovered candidate genes support the idea that QR in this Triticeae host is primarily based on pathogen-associated molecular pattern-triggered immunity, which is compromised by effector molecules produced by the compatible pathogen. The overlap of four genes with significant TIGS effects both in the NHR and QR screens also indicates shared components for both forms of durable pathogen resistance.

Original languageEnglish
Article number518
JournalGenome Biology
Issue number12
Early online date3 Dec 2014
Publication statusPrint publication - Dec 2014
Externally publishedYes


  • Adaptation
  • Ascomycota
  • Disease resistance
  • Genes silencing
  • Hordeum
  • Plant diseases
  • Quantitative trait loci


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