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Results: 18
Number of items: 18
  • Open Access
    Lemos, F., Bajda, S., Duarte, M. V. A., Alba, J. M., Van Leeuwen, T., Pallini, A., Sabelis, M. W., & Janssen, A. (2023). Imperfect diet choice reduces the performance of a predatory mite. Oecologia, 201(4), 929–939. https://doi.org/10.1007/s00442-023-05359-0
  • Ouranou, E., Van Leeuwen, T., Riga, M., Papadaki, S., Fotoukkiaii, S. M., Bajda, S., Wybouw, N., & Vontas, J. (2018). Data from: Fitness costs of key point mutations that underlie acaricide target-site resistance in the two-spotted spider mite Tetranychus urticae [Data set]. DRYAD. https://doi.org/10.5061/dryad.32ht688
  • Open Access
    Bajda, S., Riga, M., Wybouw, N., Papadaki, S., Ouranou, E., Fotoukkiaii, S. M., Vontas, J., & Van Leeuwen, T. (2018). Fitness costs of key point mutations that underlie acaricide target-site resistance in the two-spotted spider mite Tetranychus urticae. Evolutionary Applications, 11(9), 1540-1553. https://doi.org/10.1111/eva.12643
  • Open Access
    Bajda-Wybouw, S. A. (2018). Genetics and fitness costs of acaricide resistance in spider mites. [Thesis, fully internal, Universiteit van Amsterdam].
  • Bajda, S., Dermauw, W., Panteleri, R., Sugimoto, N., Douris, V., Tirry, L., Osakabe, M., Vontas, J., & Van Leeuwen, T. (2017). A mutation in the PSST homologue of complex I (NADH:ubiquinone oxidoreductase) from Tetranychus urticae is associated with resistance to METI acaricides. Insect Biochemistry and Molecular Biology, 80, 79-90. https://doi.org/10.1016/j.ibmb.2016.11.010
  • Khalighi, M., Dermauw, W., Wybouw, N., Bajda, S., Osakabe, M., Tirry, L., & Van Leeuwen, T. (2016). Molecular analysis of cyenopyrafen resistance in the two‐spotted spider mite Tetranychus urticae. Pest Management Science, 72(1), 103-112. https://doi.org/10.1002/ps.4071
  • Díaz-Riquelme, J., Zhurov, V., Rioja, C., Pérez-Moreno, I., Torres-Pérez, R., Grimplet, J., Carbonell-Bejerano, P., Bajda, S., Van Leeuwen, T., Martínez-Zapater, J. M., Grbic, M., & Grbic, V. (2016). Additional file 9: of Comparative genome-wide transcriptome analysis of Vitis vinifera responses to adapted and non-adapted strains of two-spotted spider mite, Tetranyhus urticae [Data set]. Figshare. https://doi.org/10.6084/m9.figshare.c.3629579_d10.v1
  • Díaz-Riquelme, J., Zhurov, V., Rioja, C., Pérez-Moreno, I., Torres-Pérez, R., Grimplet, J., Carbonell-Bejerano, P., Bajda, S., Van Leeuwen, T., Martínez-Zapater, J. M., Grbic, M., & Grbic, V. (2016). Additional file 3: of Comparative genome-wide transcriptome analysis of Vitis vinifera responses to adapted and non-adapted strains of two-spotted spider mite, Tetranyhus urticae [Data set]. Figshare. https://doi.org/10.6084/m9.figshare.c.3629579_d1.v1
  • Díaz-Riquelme, J., Zhurov, V., Rioja, C., Pérez-Moreno, I., Torres-Pérez, R., Grimplet, J., Carbonell-Bejerano, P., Bajda, S., Van Leeuwen, T., Martínez-Zapater, J. M., Grbic, M., & Grbic, V. (2016). Additional file 8: of Comparative genome-wide transcriptome analysis of Vitis vinifera responses to adapted and non-adapted strains of two-spotted spider mite, Tetranyhus urticae [Data set]. Figshare. https://doi.org/10.6084/m9.figshare.c.3629579_d2.v1
  • Díaz-Riquelme, J., Zhurov, V., Rioja, C., Pérez-Moreno, I., Torres-Pérez, R., Grimplet, J., Carbonell-Bejerano, P., Bajda, S., Van Leeuwen, T., Martínez-Zapater, J. M., Grbic, M., & Grbic, V. (2016). Additional file 10: of Comparative genome-wide transcriptome analysis of Vitis vinifera responses to adapted and non-adapted strains of two-spotted spider mite, Tetranyhus urticae [Data set]. Figshare. https://doi.org/10.6084/m9.figshare.c.3629579_d3.v1
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