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Cryo-EM of α-tubulin isotype-containing microtubules revealed a contracted structure of α4A/β2A microtubules

Lei Diao, Wei Zheng, Qiaoyu Zhao, Mingyi Liu, Zhenglin Fu, Xu Zhang, Lan Bao, Yao Cong

2023Acta Biochimica et Biophysica Sinica10 citationsDOIOpen Access PDF

Abstract

Microtubules are hollow α/β-tubulin heterodimeric polymers that play critical roles in cells. In vertebrates, both α- and β-tubulins have multiple isotypes encoded by different genes, which are intrinsic factors in regulating microtubule functions. However, the structures of microtubules composed of different tubulin isotypes, especially α-tubulin isotypes, remain largely unknown. Here, we purify recombinant tubulin heterodimers composed of different mouse α-tubulin isotypes, including α1A, α1C and α4A, with the β-tubulin isotype β2A. We further assemble and determine the cryo-electron microscopy (cryo-EM) structures of α1A/β2A, α1C/β2A, and α4A/β2A microtubules. Our structural analysis demonstrates that α4A/β2A microtubules exhibit longitudinal contraction between tubulin interdimers compared with α1A/β2A and α1C/β2A microtubules. Collectively, our findings reveal that α-tubulin isotype composition can tune microtubule structures, and also provide evidence for the "tubulin code" hypothesis.

Topics & Concepts

TubulinMicrotubuleIsotypeCell biologyBiologyMicrotubule-associated proteinBiophysicsChemistryAntibodyGeneticsMonoclonal antibodyMicrotubule and mitosis dynamicsUbiquitin and proteasome pathwaysPhotosynthetic Processes and Mechanisms
Cryo-EM of α-tubulin isotype-containing microtubules revealed a contracted structure of α4A/β2A microtubules | Litcius