Publications of Natalie Wielsch

Journal Article (47)

2017
Journal Article
Wiechmann, K.; Müller, H.; König, S.; Wielsch, N.; Svatoš, A.; Jauch, J.; Werz, O.: Mitochondrial chaperonin HSP60 is the apoptosis-related target for myrtucommulone. Cell Chemical Biology 24 (5), pp. 614 - 623 (2017)
2016
Journal Article
Luo, T.; Krüger, T.; Knüpfer, U.; Kasper, L.; Wielsch, N.; Hube, B.; Kortgen, A.; Bauer, M.; Giamarellos-Bourboulis, E. J.; Dimopoulos, G. et al.; Brakhage, A. A.; Kniemeyer, O.: Immunoproteomic analysis of antibody responses to extracellular proteins of Candida albicans revealed the importance of glycosylation for antigen recognition. Journal of Proteome Research 15 (8), pp. 2394 - 2406 (2016)
Journal Article
Beran, F.; Rahfeld, P.; Luck, K.; Nagel, R.; Vogel, H.; Wielsch, N.; Irmisch, S.; Ramasamy, S.; Gershenzon, J.; Heckel, D. G. et al.; Köllner, T. G.: Novel family of terpene synthases evolved from trans-isoprenyl diphosphate synthases in a flea beetle. Proceedings of the National Academy of Sciences of the United States of America 113 (11), pp. 2922 - 2927 (2016)
Journal Article
Gretscher, R.; Streicher, P. E.; Strauß, A.; Wielsch, N.; Stock, M.; Wang, D.; Boland, W.; Burse, A.: A common theme in extracellular fluids of beetles: extracellular superoxide dismutases crucial for balancing ROS in response to microbial challenge. Scientific Reports 6, 24082 (2016)
Journal Article
Jacobs, C.; Steiger, S.; Heckel, D. G.; Wielsch, N.; Vilcinskas, A.; Vogel, H.: Sex, offspring and carcass determine antimicrobial peptide expression in the burying beetle. Scientific Reports 6, 25409 (2016)
2015
Journal Article
Wolfram, S.; Wielsch, N.; Hupfer, Y.; Mönch, B.; Lu-Walther, H.-W.; Heintzmann, R.; Werz, O.; Svatoš, A.; Pohnert, G.: A metabolic probe-enabled strategy reveals uptake and protein targets of polyunsaturated aldehydes in the diatom Phaeodactylum tricornutum. PLoS One 10 (10), e0140927 (2015)
Journal Article
Pauchet, Y.; Wielsch, N.; Wilkinson, P. A.; Sakaluk, S. K.; Svatoš, A.; Ffrench-Constant, R. H.; Hunt, J.; Heckel, D. G.: What’s in the gift? Towards a molecular dissection of nuptial feeding in a cricket. PLoS One 10 (10), e0140191 (2015)
Journal Article
Badgaa, A.; Büchler, R.; Wielsch, N.; Walde, M.; Heintzmann, R.; Pauchet, Y.; Svatoš, A.; Ploss, K.; Boland, W.: The green gut: Chlorophyll degradation in the gut of Spodoptora littoralis. Journal of Chemical Ecology 41, pp. 065 - 974 (2015)
Journal Article
Rahfeld, P.; Häger, W.; Kirsch, R.; Pauls, G.; Becker, T.; Schulze, E.; Wielsch, N.; Wang, D.; Groth, M.; Brandt, W. et al.; Boland, W.; Burse, A.: Glandular beta-glucosidases in juvenile Chrysomelina leaf beetles support the evolution of a host-plant-dependent chemical defence. Insect Biochemistry and Molecular Biology 58, pp. 28 - 38 (2015)
Journal Article
Weinhold, A.; Wielsch, N.; Svatoš, A.; Baldwin, I. T.: Label-free nanoUPLC-MSE based quantification of antimicrobial peptides from the leaf apoplast of Nicotiana attenuata. BMC Plant Biology 25, 18 (2015)
2014
Journal Article
Rahfeld, P.; Kirsch, R.; Kugel, S.; Wielsch, N.; Stock, M.; Groth, M.; Boland, W.; Burse, A.: Independently recruited oxidases from the glucose-methanol-choline oxidoreductase family enabled chemical defences in leaf beetle larvae (subtribe Chrysomelina) to evolve. Proceedings of the Royal Society B: Biological Sciences 281 (1788), 20140842 (2014)
Journal Article
Beran, F.; Pauchet, Y.; Kunert, G.; Reichelt, M.; Wielsch, N.; Vogel, H.; Reinecke, A.; Svatoš, A.; Mewis, I.; Schmid, D. et al.; Ramasamy, S.; Ulrichs, C.; Hansson, B. S.; Gershenzon, J.; Heckel, D. G.: Phyllotreta striolata flea beetles utilize host plant defense compounds to create their own glucosinolate-myrosinase system. Proceedings of the National Academy of Sciences of the United States of America 111 (20), pp. 7349 - 7354 (2014)
Journal Article
Tuchina, O.; Groh, K.; Talarico, G.; Müller, C. H. G.; Wielsch, N.; Hupfer, Y.; Svatoš, A.; Grosse-Wilde, E.; Hansson, B. S.: Morphology and histochemistry of the aesthetasc-associated epidermal glands in terrestrial hermit crabs of the genus Coenobita (Decapoda: Paguroidea). PLoS One 9 (5), e96430 (2014)
Journal Article
Stanton, M.; Ullmann-Zeunert, L.; Wielsch, N.; Bartram, S.; Svatoš, A.; Baldwin, I. T.; Groten, K.: Silencing ribulose-1,5-bisphosphate carboxylase/oxygenase expression does not disrupt nitrogen allocation to defense after simulated herbivory in Nicotiana attenuata. Plant Signaling & Behavior 8 (12), e27570 (2014)
Journal Article
Heil, M.; Barajas-Barron, A.; Orona-Tamayo, D.; Wielsch, N.; Svatoš, A.: Partner manipulation stabilises a horizontally transmitted mutualism. Ecology Letters 17 (2), pp. 185 - 192 (2014)
2013
Journal Article
Seo, P. J.; Wielsch, N.; Kessler, D.; Svatoš, A.; Park, C.-M.; Baldwin, I. T.; Kim, S.-G.: Natural variation in floral nectar proteins of two Nicotiana attenuata accessions. BMC Plant Biology 13, 101 (2013)
Journal Article
Guo, H.; Wielsch, N.; Hafke, J. B.; Svatoš, A.; Mithöfer, A.; Boland, W.: A porin-like protein from oral secretions of Spodoptera littoralis larvae induces defense-related early events in plant leaves. Insect Biochemistry and Molecular Biology 43 (9), pp. 849 - 858 (2013)
Journal Article
Ullmann-Zeunert, L.; Stanton, M.; Wielsch, N.; Bartram, S.; Hummert, C.; Svatoš, A.; Baldwin, I. T.; Groten, K.: Quantification of growth-defense trade-offs in a common currency: nitrogen required for phenolamide biosynthesis is not derived from ribulose-1,5-bisphosphate carboxylase/oxygenase turnover. The Plant Journal 75 (3), pp. 417 - 429 (2013)
Journal Article
Orona-Tamayo, D.; Wielsch, N.; Escalante-Pérez, M.; Svatos, A.; Molina-Torres, J.; Muck, A.; Ramirez-Chávez, E.; Ádame-Alvarez, R.-M.; Heil, M.: Short-term proteomic dynamics reveal metabolic factory for active extrafloral nectar secretion by Acacia cornigera ant-plants. The Plant Journal 73 (4), pp. 546 - 554 (2013)
Journal Article
Orona-Tamayo, D.; Wielsch, N.; Blanco-Labra, A.; Svatoš, A.; Farias-Rodriguez, R.; Heil, M.: Exclusive rewards in mutualisms: ant proteases and plant protease inhibitors create a lock–key system to protect Acacia food bodies from exploitation. Molecular Ecology 22 (15), pp. 4087 - 4100 (2013)
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