The Phytophthora parasitica RXLR effector Penetration-Specific Effector 1 favours Arabidopsis thaliana infection by interfering with auxin physiology
Article first published online: 17 APR 2013
© 2013 INRA. New Phytologist © 2013 New Phytologist Trust
Volume 199, Issue 2, pages 476–489, July 2013
How to Cite
Evangelisti, E., Govetto, B., Minet-Kebdani, N., Kuhn, M.-L., Attard, A., Ponchet, M., Panabières, F. and Gourgues, M. (2013), The Phytophthora parasitica RXLR effector Penetration-Specific Effector 1 favours Arabidopsis thaliana infection by interfering with auxin physiology. New Phytologist, 199: 476–489. doi: 10.1111/nph.12270
- Issue published online: 19 JUN 2013
- Article first published online: 17 APR 2013
- Manuscript Accepted: 9 MAR 2013
- Manuscript Received: 2 JAN 2013
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Fig. S1 Visualization of statoliths in columella cells of wild-type and PSE1 transgenic plants.
Fig. S2 Anatomy of PSE1 transgenic plant roots.
Fig. S3 Root growth inhibition assay on PSE1 transgenic plantlets.
Fig. S4 Suppression of the PSE1-induced coiled-root phenotype by exogenous auxin.
Fig. S5 Quantification of pDR5::GFP reporter expression at the root apex of PSE1 transgenic plants.
Fig. S6 PIN1 and PIN2 auxin efflux carrier accumulation in PSE1 transgenic plants.
Fig. S7 PIN4 and PIN7 auxin efflux carrier localization in PSE1 transgenic plants.
Fig. S8 The increased susceptibility of PSE1 transgenic A. thaliana plantlets to P. parasitica is not complemented by IAA or NAA.
Fig. S9 Assessment of pDR5::GFP reporter expression at the root apex of A. thaliana plantlets inoculated with P. parasitica zoospores.
Fig. S10 Assessment of PIN4 and PIN7 accumulation in roots of A. thaliana plantlets inoculated with P. parasitica zoospores