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Journal Abstract Search

328 related items for PubMed ID: 30530678

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  • 4. Reconfiguration of the proteasome during chaperone-mediated assembly.
    Park S, Li X, Kim HM, Singh CR, Tian G, Hoyt MA, Lovell S, Battaile KP, Zolkiewski M, Coffino P, Roelofs J, Cheng Y, Finley D.
    Nature; 2013 May 23; 497(7450):512-6. PubMed ID: 23644457
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  • 5. Proteasome Activation is Mediated via a Functional Switch of the Rpt6 C-terminal Tail Following Chaperone-dependent Assembly.
    Sokolova V, Li F, Polovin G, Park S.
    Sci Rep; 2015 Oct 09; 5():14909. PubMed ID: 26449534
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  • 6. Conserved proline residues in the coiled coil-OB domain linkers of Rpt proteins facilitate eukaryotic proteasome base assembly.
    Cheng CL, Wong MK, Li Y, Hochstrasser M.
    J Biol Chem; 2021 Oct 09; 296():100660. PubMed ID: 33862083
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  • 7. Hexameric assembly of the proteasomal ATPases is templated through their C termini.
    Park S, Roelofs J, Kim W, Robert J, Schmidt M, Gygi SP, Finley D.
    Nature; 2009 Jun 11; 459(7248):866-70. PubMed ID: 19412160
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  • 8. Conformational dynamics of the Rpt6 ATPase in proteasome assembly and Rpn14 binding.
    Ehlinger A, Park S, Fahmy A, Lary JW, Cole JL, Finley D, Walters KJ.
    Structure; 2013 May 07; 21(5):753-65. PubMed ID: 23562395
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  • 12. Structural basis for specific recognition of Rpt1p, an ATPase subunit of 26 S proteasome, by proteasome-dedicated chaperone Hsm3p.
    Takagi K, Kim S, Yukii H, Ueno M, Morishita R, Endo Y, Kato K, Tanaka K, Saeki Y, Mizushima T.
    J Biol Chem; 2012 Apr 06; 287(15):12172-82. PubMed ID: 22334676
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  • 14. Crystal structure of yeast rpn14, a chaperone of the 19 S regulatory particle of the proteasome.
    Kim S, Saeki Y, Fukunaga K, Suzuki A, Takagi K, Yamane T, Tanaka K, Mizushima T, Kato K.
    J Biol Chem; 2010 May 14; 285(20):15159-15166. PubMed ID: 20236927
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  • 15. Ccr4-Not complex subunits Ccr4, Caf1, and Not4 are novel proteolysis factors promoting the degradation of ubiquitin-dependent substrates by the 26S proteasome.
    Kandasamy G, Pradhan AK, Palanimurugan R.
    Biochim Biophys Acta Mol Cell Res; 2021 May 14; 1868(6):119010. PubMed ID: 33727038
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  • 16. Dual functions of the Hsm3 protein in chaperoning and scaffolding regulatory particle subunits during the proteasome assembly.
    Barrault MB, Richet N, Godard C, Murciano B, Le Tallec B, Rousseau E, Legrand P, Charbonnier JB, Le Du MH, Guérois R, Ochsenbein F, Peyroche A.
    Proc Natl Acad Sci U S A; 2012 Apr 24; 109(17):E1001-10. PubMed ID: 22460800
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  • 17. Structural basis for proteasome formation controlled by an assembly chaperone nas2.
    Satoh T, Saeki Y, Hiromoto T, Wang YH, Uekusa Y, Yagi H, Yoshihara H, Yagi-Utsumi M, Mizushima T, Tanaka K, Kato K.
    Structure; 2014 May 06; 22(5):731-43. PubMed ID: 24685148
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  • 18. Nucleotide-dependent switch in proteasome assembly mediated by the Nas6 chaperone.
    Li F, Tian G, Langager D, Sokolova V, Finley D, Park S.
    Proc Natl Acad Sci U S A; 2017 Feb 14; 114(7):1548-1553. PubMed ID: 28137839
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  • 19. 1.15 Å resolution structure of the proteasome-assembly chaperone Nas2 PDZ domain.
    Singh CR, Lovell S, Mehzabeen N, Chowdhury WQ, Geanes ES, Battaile KP, Roelofs J.
    Acta Crystallogr F Struct Biol Commun; 2014 Apr 14; 70(Pt 4):418-23. PubMed ID: 24699731
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  • 20. Heterohexameric ring arrangement of the eukaryotic proteasomal ATPases: implications for proteasome structure and assembly.
    Tomko RJ, Funakoshi M, Schneider K, Wang J, Hochstrasser M.
    Mol Cell; 2010 May 14; 38(3):393-403. PubMed ID: 20471945
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