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Hub AI
Nucleoporin AI simulator
(@Nucleoporin_simulator)
Hub AI
Nucleoporin AI simulator
(@Nucleoporin_simulator)
Nucleoporin
Nucleoporins are a family of proteins which are the constituent building blocks of the nuclear pore complex (NPC). The nuclear pore complex is a massive structure embedded in the nuclear envelope at sites where the inner and outer nuclear membranes fuse, forming a gateway that regulates the flow of macromolecules between the cell nucleus and the cytoplasm. Nuclear pores enable the passive and facilitated transport of molecules across the nuclear envelope. Nucleoporins, a family of around 30 proteins, are the main components of the nuclear pore complex in eukaryotic cells. Nucleoporin 62 is the most abundant member of this family. Nucleoporins are able to transport molecules across the nuclear envelope at a very high rate. A single NPC is able to transport 60,000 protein molecules across the nuclear envelope every minute.
Nucleoporins aggregate to form a nuclear pore complex, an octagonal ring that traverses the nuclear envelope. The ring consists of eight scaffold sub-complexes, with two structural layers of COPII-like coating sandwiching some proteins that line the pore. From the cytoplasm to the nucleoplasm, the three layers of the ring complex is named the cytoplasm, inner pore, and nucleoplasm rings respectively. Different sets of proteins associate on either ring, and some transmembrane proteins anchor the assembly to the lipid bilayer.
In a scaffold subcomplex, both the cytoplasm and the nucleoplasm rings are made up of Y-complexes, a protein complex built out of, among others, NUP133 and NUP107. On each end of each of the eight scaffolds are two Y-complexes, adding up to 32 complexes per pore. The relationship of the membrane curvature of a nuclear pore with Y-complexes can be seen as analogous to the budding formation of a COPII coated vesicle. The proteins lining the inner pore make up the NUP62 complex.
On the nucleoplasm side, extra proteins associated with the ring form "the nuclear basket", a complex capable of tethering the nucleoporin to the nuclear lamina and even to specific parts of the genome. The cytoplasmic end is less elaborate, with eight filaments projecting into the cytoplasm. They don't seem to have a role in nuclear import.
Some nucleoporins contain FG repeats. Named after phenylalanine and glycine, FG repeats are small hydrophobic segments that break up long stretches of hydrophilic amino acids. These flexible parts form unfolded, or disordered segments without a fixed structure. They form a mass of chains which allow smaller molecules to diffuse through, but exclude large hydrophilic macromolecules. These large molecules are only able to cross a nuclear pore if they are accompanied by a signaling molecule that temporarily interacts with a nucleoporin's FG repeat segment. FG nucleoporins also contain a globular portion that serves as an anchor for attachment to the nuclear pore complex.
Membrane nucleoporins associate with both the scaffold and the nuclear membrane. Some of them, like GP210, cross the entire membrane, others (like NUP98) act like nails with structural parts for the lining as well as parts that punch into the membrane. NUP98 was previously thought to be an FG nucleoporin, until it was demonstrated that the "FG" in it have a coiled-coil fold.
Nucleoporins have been shown to form various subcomplexes with one another. The most common of these complexes is the nup62 complex, which is an assembly composed of NUP62, NUP58, NUP54 and NUP45. Another example of such a complex is the Y (NUP107-160) complex, composed of many different nucleoporins. The NUP107-160 complex has been localized to kinetochores and plays a role in mitosis.
Many structural nucleoporins contain solenoid protein domains, domains consisting of repeats that can be stacked together as bulk building blocks. There are beta-propeller domain with similarities to WD40 repeats, and more interestingly, unique types of alpha solenoid (bundles of helixes) repeats that form a class of their own, the ancestral coatomer elements (ACEs). To date, two classes of ACEs have been identified. ACE1 is a 28-helix domain found in many scaffolding nucleoproteins as well as SEC31, a component of COPII. ACE2, shown in the infobox, is found in yeast Nup157/Nup170 (human Nup155) and Nup133. In either case, the shared domains, like their names suggest, indicate a shared ancestry both within nucleoproteins and between nucleoproteins and cotamers.
Nucleoporin
Nucleoporins are a family of proteins which are the constituent building blocks of the nuclear pore complex (NPC). The nuclear pore complex is a massive structure embedded in the nuclear envelope at sites where the inner and outer nuclear membranes fuse, forming a gateway that regulates the flow of macromolecules between the cell nucleus and the cytoplasm. Nuclear pores enable the passive and facilitated transport of molecules across the nuclear envelope. Nucleoporins, a family of around 30 proteins, are the main components of the nuclear pore complex in eukaryotic cells. Nucleoporin 62 is the most abundant member of this family. Nucleoporins are able to transport molecules across the nuclear envelope at a very high rate. A single NPC is able to transport 60,000 protein molecules across the nuclear envelope every minute.
Nucleoporins aggregate to form a nuclear pore complex, an octagonal ring that traverses the nuclear envelope. The ring consists of eight scaffold sub-complexes, with two structural layers of COPII-like coating sandwiching some proteins that line the pore. From the cytoplasm to the nucleoplasm, the three layers of the ring complex is named the cytoplasm, inner pore, and nucleoplasm rings respectively. Different sets of proteins associate on either ring, and some transmembrane proteins anchor the assembly to the lipid bilayer.
In a scaffold subcomplex, both the cytoplasm and the nucleoplasm rings are made up of Y-complexes, a protein complex built out of, among others, NUP133 and NUP107. On each end of each of the eight scaffolds are two Y-complexes, adding up to 32 complexes per pore. The relationship of the membrane curvature of a nuclear pore with Y-complexes can be seen as analogous to the budding formation of a COPII coated vesicle. The proteins lining the inner pore make up the NUP62 complex.
On the nucleoplasm side, extra proteins associated with the ring form "the nuclear basket", a complex capable of tethering the nucleoporin to the nuclear lamina and even to specific parts of the genome. The cytoplasmic end is less elaborate, with eight filaments projecting into the cytoplasm. They don't seem to have a role in nuclear import.
Some nucleoporins contain FG repeats. Named after phenylalanine and glycine, FG repeats are small hydrophobic segments that break up long stretches of hydrophilic amino acids. These flexible parts form unfolded, or disordered segments without a fixed structure. They form a mass of chains which allow smaller molecules to diffuse through, but exclude large hydrophilic macromolecules. These large molecules are only able to cross a nuclear pore if they are accompanied by a signaling molecule that temporarily interacts with a nucleoporin's FG repeat segment. FG nucleoporins also contain a globular portion that serves as an anchor for attachment to the nuclear pore complex.
Membrane nucleoporins associate with both the scaffold and the nuclear membrane. Some of them, like GP210, cross the entire membrane, others (like NUP98) act like nails with structural parts for the lining as well as parts that punch into the membrane. NUP98 was previously thought to be an FG nucleoporin, until it was demonstrated that the "FG" in it have a coiled-coil fold.
Nucleoporins have been shown to form various subcomplexes with one another. The most common of these complexes is the nup62 complex, which is an assembly composed of NUP62, NUP58, NUP54 and NUP45. Another example of such a complex is the Y (NUP107-160) complex, composed of many different nucleoporins. The NUP107-160 complex has been localized to kinetochores and plays a role in mitosis.
Many structural nucleoporins contain solenoid protein domains, domains consisting of repeats that can be stacked together as bulk building blocks. There are beta-propeller domain with similarities to WD40 repeats, and more interestingly, unique types of alpha solenoid (bundles of helixes) repeats that form a class of their own, the ancestral coatomer elements (ACEs). To date, two classes of ACEs have been identified. ACE1 is a 28-helix domain found in many scaffolding nucleoproteins as well as SEC31, a component of COPII. ACE2, shown in the infobox, is found in yeast Nup157/Nup170 (human Nup155) and Nup133. In either case, the shared domains, like their names suggest, indicate a shared ancestry both within nucleoproteins and between nucleoproteins and cotamers.
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