Nucleoporin 62
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| Nucleoporin 62kDa | |
|---|---|
| Image:NuclearPore crop.svg.png | |
| Symbol(s): | NUP62 p62 |
| Genetic data | |
| Locus: | Chr. 19 q13.33 |
| Gene code: | NUP62 |
| Protein Structure/Function | |
| Protein length: | 522 (Amino Acids) |
| Molecular Weight: | 62 k (Da) |
| Functions: | Protein/RNA traffic regulator Nuclear pore complex |
| Other | |
| Taxa expressing: | Homo sapiens |
| Cell types: | All |
| Subcellular localization: | Nuclear membrane |
| Pathway(s): | Nuclear/Cytoplasmic trafficking |
| Enzymatic Data | |
| Cofactor(s): | NUPs |
| Database Links | |
| OMIM: | 605815 |
| RefSeq: | NM_153718 |
| UniProt: | P37198 |
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Nucleoporin p62 (p62) is a protein complex associated with the nuclear envelope. The p62 protein remains associated with the nuclear pore complex-lamina fraction. p62 is synthesized as a soluble cytoplasmic precursor of 61 kDa[1] followed by modification that involve addition of N-acetylglucosamine residues.[1] followed by association with other complex proteins.
Contents |
Structure
P62 is a serine/threonine rich polypeptide of ~520 amino acids, with tetrapeptide repeats on the amino terminus and a series of alpha-helical regions with hydrophobic heptad repeats.[1] P62 assembles into a complex containing 3 addition proteins, p60, p54 and p45 [1][1] forming the p62 complex of ~235 kDa. Glycosylation appears to be involved in the assembly and disassembly of p62 into higher order complexes, and a serine/threonine rich linker region between Ser270 to Thr294 appear to be regulatory.[1] The p62 complex is localized to both the nucleoplasmic and cytoplasmic sides of the pore complex and the relative diameter of p62 complex relative to the nuclear pore complex suggests it interacts in pore gating.[1]
Function
P62 appears to interact with mRNA during transport out of the nucleus.[1] P62 also interacts with a nuclear transport factor (NTF2) protein that is involved in trafficking proteins between cytoplasm and nucleus.[1] Another protein, importin (beta) binds to the helical rod section of p62, which also binds NTF2 suggesting the formation of a higher order gating complex.[1] Karyopherin beta2 (transportin), a riboprotein transporter also interacts with p62.[1] P62 also interacts with nucleoporin-93kDa[1], and when Nup98 is depleted p62 fails to assemble with nuclear pore complexes.[1] Mutant pores could not dock/transport proteins with nuclear localization signals or M9 import signals.
Pathology
Antibodies to p62 complex are involved in 1 or more autoimmune diseases. P62 glycosylation is increased in diabetes.[1] and may influence its association with other diseases. p62 is also more frequent in Stage IV primary biliary cirrhosis and is prognostic for severe disease.[1]
