Abstract
Dynactin is a 1.1 MDa complex that activates the molecular motor dynein for ultra‐processive transport along microtubules. In order to do this, it forms a tripartite complex with dynein and a coiled‐coil adaptor. Dynactin consists of an actin‐related filament whose length is defined by its flexible shoulder domain. Despite previous cryo‐EM structures, the molecular architecture of the shoulder and pointed end of the filament is still poorly understood due to the lack of high‐resolution information in these regions. Here we combine multiple cryo‐EM datasets and define precise masking strategies for particle signal subtraction and 3D classification. This overcomes domain flexibility and results in high‐resolution maps into which we can build the shoulder and pointed end. The unique architecture of the shoulder securely houses the p150 subunit and positions the four identical p50 subunits in different conformations to bind dynactin’s filament. The pointed end map allows us to build the first structure of p62 and reveals the molecular basis for cargo adaptor binding to different sites at the pointed end.
Highlights
IntroductionMulti-subunit co-activator of the molecular motor cytoplasmic dynein 1
Dynactin is a large, multi-subunit co-activator of the molecular motor cytoplasmic dynein 1
We find that in this conformation p150 overlaps with all adaptor-binding sites, suggesting that it acts to inhibit dynactin’s interactions with cargo adaptors
Summary
Multi-subunit co-activator of the molecular motor cytoplasmic dynein 1. It is required for long-range transport along microtubules in many animals and fungi (Reck-Peterson et al, 2018) (Fig 1A). Coiled-coil adaptors make interactions along dynactin’s filament and pointed end and bind dynein’s heavy chain and light intermediate chain (Schroeder et al, 2014; Urnavicius et al, 2015; Gama et al, 2017; Lee et al, 2018; Urnavicius et al, 2018)
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