Ribosomal proteins are synthesized in the cytoplasm, before nuclear import and assembly with ribosomal RNA (rRNA). Little is known about coordination of nucleocytoplasmic transport with ribosome assembly. Here, we identify a transport adaptor, symportin 1 (Syo1), that facilitates synchronized coimport of the two 5S-rRNA binding proteins Rpl5 and Rpl11. In vitro studies revealed that Syo1 concomitantly binds Rpl5-Rpl11 and furthermore recruits the import receptor Kap104. The Syo1-Rpl5-Rpl11 import complex is released from Kap104 by RanGTP and can be directly transferred onto the 5S rRNA. Syo1 can shuttle back to the cytoplasm by interaction with phenylalanine-glycine nucleoporins. X-ray crystallography uncovered how the a-solenoid symportin accommodates the Rpl5 amino terminus, normally bound to 5S rRNA, in an extended groove. Symportin-mediated coimport of Rpl5-Rpl11 could ensure coordinated and stoichiometric incorporation of these proteins into pre-60S ribosomes.R ibosomes perform their role in translation in the cytoplasm, but ribosome assembly occurs predominantly in a specialized nuclear compartment, the nucleolus (1-4). The construction of ribosomes follows an ordered assembly of~80 ribosomal proteins (r-proteins) and four ribosomal RNAs (rRNAs) into a small (40S) and large (60S) ribosomal subunit. This process is spatially and temporally coordinated, starting with cotranscriptional assembly of a first preribosomal particle (90S) in the nucleolus that is subsequently separated into pre-40S and pre-60S ribosomes, which follow independent processing and maturation steps before export into the cytoplasm (5-8). R-proteins are synthesized in the cytoplasm and are imported into the nucleus by nuclear import receptors of the importinb/karyopherin family (9, 10). These transport receptors recognize different types of nuclear localization sequences (NLSs), and hence a number of import receptors have been implicated in decoding NLSs of r-proteins in a redundant way (9, 11). After nuclear import and before incorporation into nascent ribosomes, r-proteins are released from the transport receptor by its interaction with RanGTP (12). At present, it is thought that each r-protein is individually transported into the nucleus by its import receptor. However, a number of r-proteins form functional clusters on the ribosomal surface or assemble at distinct temporal or spatial entry points during ribosome formation (13-15), thus raising the possibility of coordinated nuclear import and assembly of r-proteins.One such pair of functionally related r-proteins is Rpl5 and Rpl11, which are close to each other on the mature 60S subunit and bind to opposite sites on the 5S rRNA ( Fig.
Long-term prognosis of Henoch-Schönlein purpura is dependent on the severity of renal involvement. In those patients who have the risk factors of renal involvement, especially significant proteinuria, close attention should be paid to a urinalysis for at least 3 months from the onset of the disease.
Nup98 is a mobile nucleoporin that forms distinct dots in the nucleus. Our results show that Nup98 functions as a novel shuttling cofactor in Crm1-mediated nuclear export.
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