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<p></p> <p><b>新页面</b></p><div> The arrangement of NPCs in the nuclear envelope. (A) In a vertebrate NPC, nucleoporins are arranged <br /> with striking eightfold rotational symmetry. In addition, immunoelectron microscope studies show that the proteins that make <br /> up the central portion of the NPC are oriented symmetrically across the nuclear envelope, so that the nuclear and cytosolic <br /> sides look identical. The eightfold rotational and twofold transverse symmetry explains how such a huge structure can be <br /> formed from only about 30 different proteins: many of the nucleoporins are present in 8, 16, or 32 copies. On the basis of <br /> their approximate localization in the central portion of the NPC, nucleoporins can be classified into (1) transmembrane ring <br /> proteins that span the nuclear envelope and anchor the NPC to the envelope; (2) scaffold nucleoporins that form layered <br /> ring structures (some scaffold nucleoporins are membrane-bending proteins that stabilize the sharp membrane curvature <br /> where the nuclear envelope is penetrated); and (3) channel nucleoporins that line a central pore. In addition to folded domains <br /> that anchor the proteins in specific places, many channel nucleoporins contain extensive unstructured regions, where <br /> the polypeptide chains are intrinsically disordered. The central pore is filled with a high concentration of these disordered <br /> domains whose weak interactions with each other form a gel that blocks the passive diffusion of large macromolecules. The <br /> disordered regions contain a large number of phenylalanine–glycine (FG) repeats. Fibrils protrude from both the cytosolic and <br /> the nuclear sides of the NPC. By contrast to the twofold transverse symmetry of the NPC core, the fibrils facing the cytosol <br /> and nucleus are different: on the nuclear side, the fibrils converge at their distal end to form a basketlike structure. The precise <br /> arrangement of individual nucleoporins in the assembled NPC is still a matter of intense debate, because atomic resolution <br /> analyses have been hindered by the sheer size and flexible nature of the NPC and by difficulties in purifying sufficient <br /> amounts of homogeneous material. A combination of electron microscopy, computational analyses, and crystal structures of <br /> nucleoporin subcomplexes has been used to develop the current models of the NPC architecture. (B) A scanning electron <br /> micrograph of the nuclear side of the nuclear envelope of an oocyte, showing NPCs with their basketlike fibrils. (C) An <br /> electron micrograph showing a side view of two NPCs (brackets); note that the inner and outer nuclear membranes are <br /> continuous at the edges of the pore. (D) An electron micrograph showing face-on views of negatively stained NPCs. The <br /> membrane has been removed by detergent extraction. Note that some of the NPCs contain material in their center, which is <br /> thought to be trapped macromolecules in transit through these NPCs. (A, adapted from A. Hoelz et al., Annu. Rev. Biochem. <br /> 80:613–643, 2011. B, © 1992 M.W. Goldberg and T.D. Allen. Originally published in J. Cell Biol. https://doi.org/10.1083/<br /> jcb.119.6.1429. With permission from Rockefeller University Press. C, courtesy of Werner Franke and Ulrich Scheer. D, <br /> courtesy of Ron Milligan.)</div>

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