Thomas Lahaye

Affiliations: 
Department of Biology Martin Luther University Halle-Wittenberg, Germany 
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"Thomas Lahaye"
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Parents

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Paul Schulze-Lefert grad student Technical University Aachen

Children

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Sebastian Schornack grad student 2001-2006 Martin Luther University Halle-Wittenberg

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Publications

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Gallas N, Li X, von Roepenack-Lahaye E, et al. (2023) An ancient cis-element targeted by Ralstonia solanacearum TALE-like effectors facilitates the development of a promoter trap that could confer broad-spectrum wilt resistance. Plant Biotechnology Journal
Shantharaj D, Minsavage GV, Orbović V, et al. (2023) A promoter trap in transgenic citrus mediates recognition of a broad spectrum of Xanthomonas citri pv. citri TALEs, including in planta-evolved derivatives. Plant Biotechnology Journal
You Y, Koczyk G, Nuc M, et al. (2022) The eINTACT system dissects bacterial exploitation of plant osmosignalling to enhance virulence. Nature Plants
Schenstnyi K, Strauß A, Dressel A, et al. (2022) The tomato resistance gene Bs4 suppresses leaf watersoaking phenotypes induced by AvrHah1, a transcription activator-like effector from tomato-pathogenic xanthomonads. The New Phytologist
Nowack MK, Holmes DR, Lahaye T. (2021) TALE-induced cell death executors: an origin outside immunity? Trends in Plant Science
Krönauer C, Lahaye T. (2021) The flavin monooxygenase Bs3 triggers cell death in plants, impairs growth in yeast and produces H2O2 in vitro. Plos One. 16: e0256217
Wu D, von Roepenack-Lahaye E, Buntru M, et al. (2019) A Plant Pathogen Type III Effector Protein Subverts Translational Regulation to Boost Host Polyamine Levels. Cell Host & Microbe
Krönauer C, Kilian J, Strauß T, et al. (2019) Cell death triggered by the YUCCA-like Bs3 protein coincides with accumulation of SA and Pip but not of IAA. Plant Physiology
Krönauer C, Kilian J, Strauß T, et al. (2019) Cell death triggered by the YUCCA-like Bs3 protein coincides with accumulation of SA and Pip but not of IAA. Plant Physiology
de Lange O, Schandry N, Wunderlich M, et al. (2017) Exploiting the sequence diversity of TALE-like repeats to vary the strength of dTALE-promoter interactions. Synthetic Biology (Oxford, England). 2: ysx004
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