Sarah Mailänder
University of Tübingen
3 Papers
Sarah Mailänder is an academic researcher from University of Tübingen. The author has contributed to research in topics: Biology & Gene. The author has an hindex of 3, co-authored 3 publications.
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Papers
Streptomyces-induced resistance against oak powdery mildew involves host plant responses in defense, photosynthesis, and secondary metabolism pathways.
Florence Kurth,Sarah Mailänder,Markus Bönn,Lasse Feldhahn,Sylvie Herrmann,Ivo Große,François Buscot,Silvia D. Schrey,Mika T. Tarkka +8 more
TL;DR: It is found that this Streptomyces strain elicited a systemic defense response in oak that was, in part, enhanced upon pathogen challenge, and the RNA-Seq data suggests the participation of the salicylic acid-dependent pathway.
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OakContigDF159.1, a reference library for studying differential gene expression in Quercus robur during controlled biotic interactions: use for quantitative transcriptomic profiling of oak roots in ectomycorrhizal symbiosis.
Mika T. Tarkka,Sylvie Herrmann,Tesfaye Wubet,Lasse Feldhahn,Lasse Feldhahn,Sabine Recht,Florence Kurth,Sarah Mailänder,Markus Bönn,Markus Bönn,Maren Neef,Oguzhan Angay,Michael Bacht,Marcel Graf,Hazel Maboreke,Frank Fleischmann,Thorsten E. E. Grams,Liliane Ruess,Martin Schädler,Martin Schädler,Roland Brandl,Stefan Scheu,Silvia D. Schrey,Ivo Grosse,François Buscot,François Buscot +25 more
TL;DR: In addition to the first report of remorin expression in EMs, the extensive coverage provided by the study permitted detection of differential regulation within large gene families (nitrogen, phosphorus and sugar transporters, aquaporins) that might indicate specific mechanisms of genome regulation in oak EMs compared with other trees.
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Endogenous rhythmic growth, a trait suitable for the study of interplays between multitrophic interactions and tree development
Sylvie Herrmann,Thorsten E. E. Grams,Mika T. Tarkka,Oguzhan Angay,Michael Bacht,Markus Bönn,Lasse Feldhahn,Marcel Graf,Florence Kurth,Hazel Maboreke,Sarah Mailänder,Sabine Recht,Frank Fleischmann,Liliane Ruess,Martin Schädler,Stefan Scheu,Silvia D. Schrey,François Buscot +17 more
TL;DR: This model is used to identify and resolve the experimental challenges inherent in synthesizing diverse types of associations in a common microcosm system, in labeling plants with stable N and C isotopes and in analyzing transcripts in a non-model plant, a process which requires generating a specific contig library.
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