Journal article
Delta and epsilon tubulin in mammalian development
GG Stathatos, JEM Dunleavy, J Zenker, MK O'Bryan
Trends in Cell Biology | CELL PRESS | Published : 2021
Abstract
Delta (δ-) and epsilon (ε-) tubulin are lesser-known cousins of alpha (α-) and beta (β-) tubulin. They are likely to regulate centriole function in a broad range of species; however, their in vivo role and mechanism of action in mammals remain mysterious. In unicellular species and mammalian cell lines, mutations in δ- and ε-tubulin cause centriole destabilization and atypical mitosis and, in the most severe cases, cell death. Beyond the centriole, δ- and ε-tubulin localize to the manchette during murine spermatogenesis and interact with katanin-like 2 (KATNAL2), a protein with microtubule (MT)-severing properties, indicative of novel non-centriolar functions. Herein we summarize the current..
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Awarded by Canadian Institute for Advanced Research
Funding Acknowledgements
G.G.S. is supported by an Australian Government Research Training Program Scholarship. J.E.M.D. is supported by a National Health and Medical Research Council Ideas Grant to M.K.O'B. and J.E.M.D. (APP1180929) and the concepts outlined in the grant were developed in part through funding from the Australian Research Council to M.K.O'B. (DP180100533) . J.Z. is sup-ported by a Canadian Institute for Advanced Research (CIFAR) Azrieli Scholarship. The Australian Regenerative Medicine Institute is supported by grants from the State Government of Victoria and the Australian Government.