%0 Journal Article %1 froschel2019gainoffunction %A Froschel, C. %A Iven, T. %A Walper, E. %A Bachmann, V. %A Weiste, C. %A Droge-Laser, W. %D 2019 %J Mol Plant Microbe Interact %K Brassica myOwn rapa/microbiology %N 9 %P 1095-1109 %R 10.1094/MPMI-02-19-0055-R %T A Gain-of-Function Screen Reveals Redundant ERF Transcription Factors Providing Opportunities for Resistance Breeding Toward the Vascular Fungal Pathogen Verticillium longisporum %U https://www.ncbi.nlm.nih.gov/pubmed/31365325 %V 32 %X Verticillium longisporum is a vascular fungal pathogen leading to severe crop loss, particular in oilseed rape. Transcription factors (TF) are highly suited for genetic engineering of pathogen-resistant crops, as they control sets of functionally associated genes. Applying the AtTORF-Ex (Arabidopsis thaliana transcription factor open reading frame expression) collection, a simple and robust screen of TF-overexpressing plants was established displaying reduced fungal colonization. Distinct members of the large ethylene response factor (ERF) family, namely ERF96 and the six highly related subgroup IXb members ERF102 to ERF107, were identified. Whereas overexpression of these ERF significantly reduces fungal propagation, single loss-of-function approaches did not reveal altered susceptibility. Hence, this gain-of-function approach is particularly suited to identify redundant family members. Expression analyses disclosed distinct ERF gene activation patterns in roots and leaves, suggesting functional differences. Transcriptome studies performed on chemically induced ERF106 expression revealed an enrichment of genes involved in the biosynthesis of antimicrobial indole glucosinolates (IG), such as CYP81F2 (CYTOCHROME P450-MONOOXYGENASE 81F2), which is directly regulated by IXb-ERF via two GCC-like cis-elements. The impact of IG in restricting fungal propagation was further supported as the cyp81f2 mutant displayed significantly enhanced susceptibility. Taken together, this proof-of-concept approach provides a novel strategy to identify candidate TF that are valuable genetic resources for engineering or breeding pathogen-resistant crop plants.

@article{froschel2019gainoffunction, abstract = {Verticillium longisporum is a vascular fungal pathogen leading to severe crop loss, particular in oilseed rape. Transcription factors (TF) are highly suited for genetic engineering of pathogen-resistant crops, as they control sets of functionally associated genes. Applying the AtTORF-Ex (Arabidopsis thaliana transcription factor open reading frame expression) collection, a simple and robust screen of TF-overexpressing plants was established displaying reduced fungal colonization. Distinct members of the large ethylene response factor (ERF) family, namely ERF96 and the six highly related subgroup IXb members ERF102 to ERF107, were identified. Whereas overexpression of these ERF significantly reduces fungal propagation, single loss-of-function approaches did not reveal altered susceptibility. Hence, this gain-of-function approach is particularly suited to identify redundant family members. Expression analyses disclosed distinct ERF gene activation patterns in roots and leaves, suggesting functional differences. Transcriptome studies performed on chemically induced ERF106 expression revealed an enrichment of genes involved in the biosynthesis of antimicrobial indole glucosinolates (IG), such as CYP81F2 (CYTOCHROME P450-MONOOXYGENASE 81F2), which is directly regulated by IXb-ERF via two GCC-like cis-elements. The impact of IG in restricting fungal propagation was further supported as the cyp81f2 mutant displayed significantly enhanced susceptibility. Taken together, this proof-of-concept approach provides a novel strategy to identify candidate TF that are valuable genetic resources for engineering or breeding pathogen-resistant crop plants.}, added-at = {2024-02-15T15:08:22.000+0100}, author = {Froschel, C. and Iven, T. and Walper, E. and Bachmann, V. and Weiste, C. and Droge-Laser, W.}, biburl = {https://www.bibsonomy.org/bibtex/26724a60b29cf80054a29438fdd307e2a/jvsi_all}, doi = {10.1094/MPMI-02-19-0055-R}, interhash = {d0b3d584c567b35f462068b93e0b468c}, intrahash = {6724a60b29cf80054a29438fdd307e2a}, issn = {0894-0282 (Print) 0894-0282 (Linking)}, journal = {Mol Plant Microbe Interact}, keywords = {Brassica myOwn rapa/microbiology}, note = {Froschel, Christian Iven, Tim Walper, Elisabeth Bachmann, Vanessa Weiste, Christoph Droge-Laser, Wolfgang eng 2019/08/01 Mol Plant Microbe Interact. 2019 Sep;32(9):1095-1109. doi: 10.1094/MPMI-02-19-0055-R. Epub 2019 Jul 30.}, number = 9, pages = {1095-1109}, timestamp = {2024-02-15T15:08:22.000+0100}, title = {A Gain-of-Function Screen Reveals Redundant ERF Transcription Factors Providing Opportunities for Resistance Breeding Toward the Vascular Fungal Pathogen Verticillium longisporum}, type = {Journal Article}, url = {https://www.ncbi.nlm.nih.gov/pubmed/31365325}, volume = 32, year = 2019 }