Abstract

The modular architecture of the nuclear pore complex (NPC) consists of a membrane‐embedded basic framework (the ‘spoke complex’) made up of eight multidomain spokes with two rings on each face (Figure 1A). The ring facing the cytoplasm is decorated with eight ∼50 nm fibrils extending into the cytosol, and the nuclear ring is capped with a basket‐like assembly of eight thin, 50–100 nm filaments joined distally by a 30–40 nm diameter terminal ring. The center of the basic framework harbors the ‘gated transport channel’, which is involved in signal‐mediated bidirectional transport of macromolecules and is plugged to the central ‘transporter’, whose ultimate structure and functional role in mediated nuclear transport remains to be established. N.Pante and U.Aebi (Basel) reported their approaches to the functional roles of the different NPC components and to dissection of the steps of nuclear import and export at the NPC by direct visualization of gold‐labeled proteins and RNAs moving in or out of the cell nucleus through the NPC (Figure 1B). Figure 1. ( A ) Current consensus model of the membrane‐bound NPC. Its major structural components include the basic framework, the central plug or gated channel, the cytoplasmic and nuclear rings, and the cytoplasmic fibrils and nuclear basket. ( B ) Visualization of the different steps of nuclear import of an NLS‐bearing protein through the NPC. At the bottom are selected examples of cross‐sectioned NPCs with associated nucleoplasmin–gold particles (8 nm diameter), depicted at different stages of transport; at the top is a schematic diagram of the distinct steps visualized by electron microscopy. In the first step of transport, the NLS protein to be imported associates with the NLS receptor (importins α and β) (1). This step takes place in the cytoplasm and does not require physical interaction with any NPC component. In a second step, this ‘targeting complex’ docks …

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