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Items: 1 to 20 of 68

1.

The loop-less tmCdc34 E2 mutant defective in polyubiquitination in vitro and in vivo supports yeast growth in a manner dependent on Ubp14 and Cka2.

Lass A, Cocklin R, Scaglione KM, Skowyra M, Korolev S, Goebl M, Skowyra D.

Cell Div. 2011 Mar 31;6:7. doi: 10.1186/1747-1028-6-7.

2.

The human Cdc34 carboxyl terminus contains a non-covalent ubiquitin binding activity that contributes to SCF-dependent ubiquitination.

Choi YS, Wu K, Jeong K, Lee D, Jeon YH, Choi BS, Pan ZQ, Ryu KS, Cheong C.

J Biol Chem. 2010 Jun 4;285(23):17754-62. doi: 10.1074/jbc.M109.090621. Epub 2010 Mar 30.

3.

Human Cdc34 employs distinct sites to coordinate attachment of ubiquitin to a substrate and assembly of polyubiquitin chains.

Gazdoiu S, Yamoah K, Wu K, Pan ZQ.

Mol Cell Biol. 2007 Oct;27(20):7041-52. Epub 2007 Aug 13.

5.

Novel CDC34 (UBC3) ubiquitin-conjugating enzyme mutants obtained by charge-to-alanine scanning mutagenesis.

Pitluk ZW, McDonough M, Sangan P, Gonda DK.

Mol Cell Biol. 1995 Mar;15(3):1210-9.

6.

Release of ubiquitin-charged Cdc34-S - Ub from the RING domain is essential for ubiquitination of the SCF(Cdc4)-bound substrate Sic1.

Deffenbaugh AE, Scaglione KM, Zhang L, Moore JM, Buranda T, Sklar LA, Skowyra D.

Cell. 2003 Sep 5;114(5):611-22.

7.
8.

In vivo disassembly of free polyubiquitin chains by yeast Ubp14 modulates rates of protein degradation by the proteasome.

Amerik AYu, Swaminathan S, Krantz BA, Wilkinson KD, Hochstrasser M.

EMBO J. 1997 Aug 15;16(16):4826-38.

9.

The acidic tail of the Cdc34 ubiquitin-conjugating enzyme functions in both binding to and catalysis with ubiquitin ligase SCFCdc4.

Kleiger G, Hao B, Mohl DA, Deshaies RJ.

J Biol Chem. 2009 Dec 25;284(52):36012-23. doi: 10.1074/jbc.M109.058529. Epub 2009 Oct 29.

10.

Functional interaction of 13 yeast SCF complexes with a set of yeast E2 enzymes in vitro.

Kus BM, Caldon CE, Andorn-Broza R, Edwards AM.

Proteins. 2004 Feb 15;54(3):455-67.

PMID:
14747994
11.

Proximity-induced activation of human Cdc34 through heterologous dimerization.

Gazdoiu S, Yamoah K, Wu K, Escalante CR, Tappin I, Bermudez V, Aggarwal AK, Hurwitz J, Pan ZQ.

Proc Natl Acad Sci U S A. 2005 Oct 18;102(42):15053-8. Epub 2005 Oct 6.

14.

A deubiquitinating enzyme that disassembles free polyubiquitin chains is required for development but not growth in Dictyostelium.

Lindsey DF, Amerik A, Deery WJ, Bishop JD, Hochstrasser M, Gomer RH.

J Biol Chem. 1998 Oct 30;273(44):29178-87.

15.

E2-BRCA1 RING interactions dictate synthesis of mono- or specific polyubiquitin chain linkages.

Christensen DE, Brzovic PS, Klevit RE.

Nat Struct Mol Biol. 2007 Oct;14(10):941-8. Epub 2007 Sep 16.

PMID:
17873885
16.

Structure and function of ubiquitin conjugating enzyme E2-25K: the tail is a core-dependent activity element.

Haldeman MT, Xia G, Kasperek EM, Pickart CM.

Biochemistry. 1997 Aug 26;36(34):10526-37.

PMID:
9265633
18.
19.

Assembly of different length of polyubiquitins on the catalytic cysteine of E2 enzymes without E3 ligase; a novel application of non-reduced/reduced 2-dimensional electrophoresis.

Shin DY, Lee H, Park ES, Yoo YJ.

FEBS Lett. 2011 Dec 15;585(24):3959-63. doi: 10.1016/j.febslet.2011.11.002. Epub 2011 Nov 10.

20.
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