AI Article Synopsis
- The study investigates how cytoplasmic dynein communicates between its microtubule-binding domain (MTBD) and ATPase domain using a coiled-coil stalk.
- It introduces a disulfide bond to manipulate the affinity states of the MTBD and analyzes the structures using NMR and cryo-EM.
- The findings suggest that changes in the stalk's structure enhance communication between the domains, influencing dynein's directional movement along microtubules.
Article Abstract
The movements of cytoplasmic dynein on microtubule (MT) tracks is achieved by two-way communication between the microtubule-binding domain (MTBD) and the ATPase domain via a coiled-coil stalk, but the structural basis of this communication remains elusive. Here, we regulate MTBD either in high-affinity or low-affinity states by introducing a disulfide bond to the stalk and analyze the resulting structures by NMR and cryo-EM. In the MT-unbound state, the affinity changes of MTBD are achieved by sliding of the stalk α-helix by a half-turn, which suggests that structural changes propagate from the ATPase-domain to MTBD. In addition, MT binding induces further sliding of the stalk α-helix even without the disulfide bond, suggesting how the MT-induced conformational changes propagate toward the ATPase domain. Based on differences in the MT-binding surface between the high- and low-affinity states, we propose a potential mechanism for the directional bias of dynein movement on MT tracks.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7042235 | PMC |
| http://dx.doi.org/10.1038/s41467-020-14842-8 | DOI Listing |
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