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| de Jager L, Jansen KI, Hoogebeen R, et al. (2024) StableMARK-decorated microtubules in cells have expanded lattices. The Journal of Cell Biology. 224 |
| Thery M, Akhmanova A. (2024) Confined migration: Microtubules control the cell rear. Current Biology : Cb. 34: R728-R731 |
| Rai D, Song Y, Hua S, et al. (2024) CAMSAPs and nucleation-promoting factors control microtubule release from γ-TuRC. Nature Cell Biology |
| Chiang DY, Verkerk AO, Victorio R, et al. (2023) The Role of and Microtubules in Maintaining Normal Ventricular Conduction. Circulation Research |
| Volkov VA, Akhmanova A. (2023) Phase separation on microtubules: from droplet formation to cellular function? Trends in Cell Biology |
| Li Y, Kučera O, Cuvelier D, et al. (2023) Compressive forces stabilize microtubules in living cells. Nature Materials |
| van den Berg CM, Volkov VA, Schnorrenberg S, et al. (2023) CSPP1 stabilizes growing microtubule ends and damaged lattices from the luminal side. The Journal of Cell Biology. 222 |
| Meiring JCM, Grigoriev I, Nijenhuis W, et al. (2022) Opto-katanin, an optogenetic tool for localized, microtubule disassembly. Current Biology : Cb |
| Maleki AN, Veld PJHI', Akhmanova A, et al. (2022) Estimation of microtubule-generated forces using a DNA origami nanospring. Journal of Cell Science |
| Willekers S, Tessadori F, van der Vaart B, et al. (2022) The centriolar satellite protein Cfap53 facilitates formation of the zygotic microtubule organizing center in the zebrafish embryo. Development (Cambridge, England). 149 |