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1 lear export of nsP2 is mediated via the CRM1 nuclear export pathway.
2 vity or by inhibiting the Exportin1-mediated nuclear export pathway.
3 t signal that participated in CRM1-dependent nuclear export pathway.
4 mosome region maintenance-1 (CRM1)-dependent nuclear export pathway.
5 nuclear import receptor and a competent CRM1-nuclear export pathway.
6 suggesting that native Tax utilizes another nuclear export pathway.
7 ism requiring Mob2p, Cbk1p, and a functional nuclear export pathway.
8 seem to function in a Los1p-independent tRNA nuclear export pathway.
9 on as an exporter or an adapter in this tRNA nuclear export pathway.
10 s directly involved in the CRM1-mediated Rev nuclear export pathway.
11 mology domain and a competent Crm1-dependent nuclear export pathway.
12 us, RanBP2 emerges as a key component of the nuclear export pathway.
13 agents that disrupt different Ran-dependent nuclear export pathways.
14 h nuclear import and previously unrecognized nuclear export pathways.
15 e action of Xpo1p in at least one of several nuclear export pathways.
16 ns such as GR and hnRNP A1 that use distinct nuclear export pathways.
17 g the viral RNA to the cellular CRM1 or NXF1 nuclear export pathways.
18 e to access splicing-dependent cellular mRNA nuclear export pathways.
19 ion, and plays a functional role in multiple nuclear export pathways.
21 e (NE) budding is a nuclear pore-independent nuclear export pathway, analogous to the egress of herpe
22 mechanism of leukemogenesis mediated by the nuclear export pathway and support further investigation
23 ssembly and budding are regulated by the RNA nuclear export pathway and that alternative cellular pat
24 t HIV-1 Rev and PKI act through an identical nuclear export pathway and that Rev, rather than using a
26 electively inhibits protein translation, key nuclear export pathways, and cellular mRNA localization
27 on is dependent on the presence of an intact nuclear export pathway as c-Jun is stabilized and locali
28 nsported out of the nucleus through the CRM1 nuclear export pathway, based on observations that treat
29 or Nup153, suggesting that the Tap and CRM1 nuclear export pathways converge at the cytoplasmic peri
30 the physical machineries of this alternative nuclear export pathway for large cargos during cell diff
32 r export mechanisms and reveal a long-sought nuclear export pathway for transcripts with GC-rich sequ
34 and strongly suggest that there are multiple nuclear export pathways for these small RNAs in Arabidop
35 tibiotic, which inhibits the Crm1- dependent nuclear export pathway, induces an accumulation of epsin
36 viruses may access the same constitutive RNA nuclear export pathway involving RHA, Tap and Sam68, eve
41 oject addressed the relationship between the nuclear export pathway of SNV RU5-reporter RNA and trans
42 oviruses directs unspliced viral RNAs into a nuclear export pathway that is congruent with the pathwa
43 assays indicate that RU5 gag RNA accesses a nuclear export pathway that is distinct from the LMB-inh
44 indicate the existence of ICP27-independent nuclear export pathways that are accessible to many vira
45 Rev Response Element (RRE) through the Crm1 nuclear export pathway to the cytoplasm where viral prot
48 ttempt to reveal which steps, if any, in the nuclear export pathway utilized by steroid receptors req
49 ate that Rev and RanBP1 compete for the same nuclear export pathway, whereas Rev- and the CTE-mediate
50 ear shuttling protein that utilizes the CRM1 nuclear export pathway, while HIV-1 Gag is excluded from
51 We discovered that inhibition of the CRM1 nuclear export pathway with leptomycin B causes FIV Gag