Healthcare and Medicine Reference
In-Depth Information
59. Bajorek, M., Finley, D. & Glickman, M. H. (2003) Proteasome disassembly and
downregulation is correlated with viability during stationary phase. Curr. Biol. 13:
1140-1144.
60. Rabl, J., Smith, D. M., Yu, Y., Chang, S. C., Goldberg, A. L. & Cheng, Y. (2008)
Mechanism of gate opening in the 20S proteasome by the proteasomal ATPases.
Mol. Cell 30: 360-368.
61. Smith, D. M., Chang, S. C., Park, S., Finley, D., Cheng, Y. & Goldberg, A. L. (2007)
Docking of the proteasomal ATPases' carboxyl termini in the 20S proteasome's
alpha ring opens the gate for substrate entry. Mol. Cell 27: 731-744.
62. Hirano, Y., Kaneko, T., Okamoto, K., Bai, M., Yashiroda, H., Furuyama, K., Kato,
K., Tanaka, K. & Murata, S. (2008) Dissecting beta-ring assembly pathway of the
mammalian 20S proteasome. EMBO J. 27: 2204-2213.
63. Loidl, G., Groll, M., Musiol, H. J., Huber, R. & Moroder, L. (1999) Bivalency as a
principle for proteasome inhibition. Proc. Natl. Acad. Sci. U.S.A. 96: 5418-5422.
64. Groll, M. & Huber, R. (2004) Inhibitors of the eukaryotic 20S proteasome core
particle: a structural approach. Biochim. Biophys. Acta 1695: 33-44.
65. Luciani, F., Kesmir, C., Mishto, M., Or-Guil, M. & de Boer, R. J. (2005) A math-
ematical model of protein degradation by the proteasome. Biophys. J. 88:
2422-2432.
66. Kohler, A., Cascio, P., Leggett, D. S., Woo, K. M., Goldberg, A. L. & Finley, D. (2001)
The axial channel of the proteasome core particle is gated by the Rpt2 ATPase
and controls both substrate entry and product release. Mol. Cell 7: 1143-1152.
67. Orlowski, M. & Wilk, S. (2000) Catalytic activities of the 20 S proteasome, a mul-
ticatalytic proteinase complex. Arch. Biochem. Biophys. 383: 1-16.
68. Kisselev, A. F., Akopian, T. N., Castillo, V. & Goldberg, A. L. (1999) Proteasome
active sites allosterically regulate each other, suggesting a cyclical bite-chew mech-
anism for protein breakdown. Mol. Cell 4: 395-402.
69. Heinemeyer, W., Fischer, M., Krimmer, T., Stachon, U. & Wolf, D. H. (1997) The
active sites of the eukaryotic 20 S proteasome and their involvement in subunit
precursor processing. J. Biol. Chem. 272: 25200-25209.
70. Jager, S., Groll, M., Huber, R., Wolf, D. H. & Heinemeyer, W. (1999) Proteasome
beta-type subunits: unequal roles of propeptides in core particle maturation and
a hierarchy of active site function. J. Mol. Biol. 291: 997-1013.
71. Kloetzel, P. M. (2004) The proteasome and MHC class I antigen processing.
Biochim. Biophys. Acta 1695: 225-233.
72. Kloetzel, P. M. & Ossendorp, F. (2004) Proteasome and peptidase function in
MHC-class-I-mediated antigen presentation. Curr. Opin. Immunol. 16: 76-81.
73. Strehl, B., Seifert, U., Kruger, E., Heink, S., Kuckelkorn, U. & Kloetzel, P. M. (2005)
Interferon-gamma, the functional plasticity of the ubiquitin-proteasome system,
and MHC class I antigen processing. Immunol. Rev. 207: 19-30.
74. Tenzer, S., Peters, B., Bulik, S., Schoor, O., Lemmel, C., Schatz, M. M., Kloetzel, P.
M., Rammensee, H. G., Schild, H. & Holzhutter, H. G. (2005) Modeling the MHC
class I pathway by combining predictions of proteasomal cleavage, TAP transport
and MHC class I binding. Cell. Mol. Life Sci. 62: 1025-1037.
75. Yewdell, J. W. (2005) Immunoproteasomes: regulating the regulator. Proc. Natl.
Acad. Sci. U.S.A. 102: 9089-9090.
Search Pocayo ::




Custom Search