Biology Reference
In-Depth Information
101.
Bellare P, Kutach AK, Rines AK, Guthrie C, Sontheimer EJ. Ubiquitin binding by a
variant Jab1/MPN domain in the essential pre-mRNA splicing factor Prp8p.
RNA
.
2006;12(2):292-302.
102.
Bellare P, Small EC, Huang X, et al. A role for ubiquitin in the spliceosome assembly
pathway.
Nat Struct Mol Biol
. 2008;15(5):444-451.
103.
Rappsilber J, Ryder U, Lamond AI, Mann M. Large-scale proteomic analysis of the
human spliceosome.
Genome Res
. 2002;12(8):1231-1245.
104.
Ohi MD, Vander Kooi CW, Rosenberg JA, Chazin WJ, Gould KL. Structural insights
into the U-box, a domain associated with multi-ubiquitination.
Nat Struct Biol
. 2003;10
(4):250-255.
105.
Hatakeyama S, Yada M, Matsumoto M, Ishida N, Nakayama KI. U box proteins as a
new family of ubiquitin-protein ligases.
J Biol Chem
. 2001;276(35):33111-33120.
106.
Pena V, Rozov A, Fabrizio P, L¨hrmann R, Wahl MC. Structure and function of an
RNase H domain at the heart of the spliceosome.
EMBO J
. 2008;27(21):2929-2940.
107.
Yang K, Zhang L, Xu T, Heroux A, Zhao R. Crystal structure of the beta-finger
domain of Prp8 reveals analogy to ribosomal proteins.
Proc Natl Acad Sci USA
.
2008;105(37):13817-13822.
108.
Ritchie DB, Schellenberg MJ, Gesner EM, et al. Structural elucidation of a PRP8 core
domain from the heart of the spliceosome.
Nat Struct Mol Biol
. 2008;15(11):1199-1205.
109.
Reyes JL, Gustafson EH, Luo HR, Moore MJ, Konarska MM. The C-terminal region
of hPrp8 interacts with the conserved GU dinucleotide at the 5
0
splice site.
RNA
.
1999;5(2):167-179.
110.
Staley JP, Guthrie C. Mechanical devices of the spliceosome: motors, clocks, springs,
and things.
Cell
. 1998;92(3):315-326.
111.
Jankowsky E, Fairman ME. RNA helicases—one fold for many functions.
Curr Opin
Struct Biol
. 2007;17(3):316-324.
112.
Will CL, Luhrmann R. Spliceosome structure and function. In: Gesteland RF,
Cech TR, Atkins JF, eds.
The RNA World
. Cold Spring Harbor, New York: Cold
Spring Harbor Laboratory Press; 2006:369-400.
113.
Maeder C, Kutach AK, Guthrie C. ATP-dependent unwinding of U4/U6 snRNAs by
the Brr2 helicase requires the C terminus of Prp8.
Nat Struct Mol Biol
. 2009;16(1):42-48.
114.
Small EC, Leggett SR, Winans AA, Staley JP. The EF-G-like GTPase Snu114p reg-
ulates spliceosome dynamics mediated by Brr2p, a DExD/H box ATPase.
Mol Cell
.
2006;23(3):389-399.
115.
Brenner TJ, Guthrie C. Assembly of Snu114 into U5 snRNP requires Prp8 and a func-
tional GTPase domain.
RNA
. 2006;12(5):862-871.
116.
McPheeters DS, Muhlenkamp P. Spatial organization of protein-RNA interactions in
the branch site-3
0
splice site region during pre-mRNA splicing in yeast.
Mol Cell Biol
.
2003;23(12):4174-4186.
117.
Chan S-P, Kao D-I, Tsai W-Y, Cheng S-C. The Prp19p-associated complex in
spliceosome activation.
Science
. 2003;302(5643):279-282.
118.
Grote M, Wolf E, Will CL, et al. Molecular architecture of the human Prp19/CDC5L
complex.
Mol Cell Biol
. 2010;30(9):2105-2119.
119.
Chan S-P, Cheng S-C. The Prp19-associated complex is required for specifying inter-
actions of U5 and U6 with pre-mRNA during spliceosome activation.
J Biol Chem
.
2005;280(35):31190-31199.
120.
McGrail JC, Krause A, O'Keefe RT. The RNA binding protein Cwc2 interacts
directly with the U6 snRNA to link the nineteen complex to the spliceosome during
pre-mRNA splicing.
Nucleic Acids Res
. 2009;37(13):4205-4217.
121.
Makarova OV, Makarov EM, Urlaub H, et al. A subset of human 35S U5 proteins,
including Prp19, function prior to catalytic step 1 of splicing.
EMBO J
. 2004;23
(12):2381-2391.
Previous Page
Next Page
Progress in Molecular Biology and Translational Science
Search WWH ::
Custom Search
Home