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Items: 1 to 20 of 192

1.

Identification of the enzyme required for activation of the small ubiquitin-like protein SUMO-1.

Desterro JM, Rodriguez MS, Kemp GD, Hay RT.

J Biol Chem. 1999 Apr 9;274(15):10618-24.

2.

Polymeric chains of SUMO-2 and SUMO-3 are conjugated to protein substrates by SAE1/SAE2 and Ubc9.

Tatham MH, Jaffray E, Vaughan OA, Desterro JM, Botting CH, Naismith JH, Hay RT.

J Biol Chem. 2001 Sep 21;276(38):35368-74.

3.

The ubiquitin-like proteins SMT3 and SUMO-1 are conjugated by the UBC9 E2 enzyme.

Schwarz SE, Matuschewski K, Liakopoulos D, Scheffner M, Jentsch S.

Proc Natl Acad Sci U S A. 1998 Jan 20;95(2):560-4.

4.

In vitro SUMO-1 modification requires two enzymatic steps, E1 and E2.

Okuma T, Honda R, Ichikawa G, Tsumagari N, Yasuda H.

Biochem Biophys Res Commun. 1999 Jan 27;254(3):693-8.

PMID:
9920803
5.

The ubiquitin-like protein Smt3p is activated for conjugation to other proteins by an Aos1p/Uba2p heterodimer.

Johnson ES, Schwienhorst I, Dohmen RJ, Blobel G.

EMBO J. 1997 Sep 15;16(18):5509-19.

6.

Ubc9p is the conjugating enzyme for the ubiquitin-like protein Smt3p.

Johnson ES, Blobel G.

J Biol Chem. 1997 Oct 24;272(43):26799-802.

7.

Ubch9 conjugates SUMO but not ubiquitin.

Desterro JM, Thomson J, Hay RT.

FEBS Lett. 1997 Nov 17;417(3):297-300.

9.

SUMO conjugation and deconjugation.

Schwienhorst I, Johnson ES, Dohmen RJ.

Mol Gen Genet. 2000 Jun;263(5):771-86.

PMID:
10905345
10.

Role of an N-terminal site of Ubc9 in SUMO-1, -2, and -3 binding and conjugation.

Tatham MH, Kim S, Yu B, Jaffray E, Song J, Zheng J, Rodriguez MS, Hay RT, Chen Y.

Biochemistry. 2003 Aug 26;42(33):9959-69.

PMID:
12924945
11.

SUMO-1 modification of IkappaBalpha inhibits NF-kappaB activation.

Desterro JM, Rodriguez MS, Hay RT.

Mol Cell. 1998 Aug;2(2):233-9.

12.

Ubc9p and the conjugation of SUMO-1 to RanGAP1 and RanBP2.

Saitoh H, Sparrow DB, Shiomi T, Pu RT, Nishimoto T, Mohun TJ, Dasso M.

Curr Biol. 1998 Jan 15;8(2):121-4.

13.

SUMO-1 conjugation in vivo requires both a consensus modification motif and nuclear targeting.

Rodriguez MS, Dargemont C, Hay RT.

J Biol Chem. 2001 Apr 20;276(16):12654-9.

14.
15.

In vivo and in vitro recruitment of an IkappaBalpha-ubiquitin ligase to IkappaBalpha phosphorylated by IKK, leading to ubiquitination.

Suzuki H, Chiba T, Kobayashi M, Takeuchi M, Furuichi K, Tanaka K.

Biochem Biophys Res Commun. 1999 Mar 5;256(1):121-6.

PMID:
10066434
16.

Structure of a SUMO-binding-motif mimic bound to Smt3p-Ubc9p: conservation of a non-covalent ubiquitin-like protein-E2 complex as a platform for selective interactions within a SUMO pathway.

Duda DM, van Waardenburg RC, Borg LA, McGarity S, Nourse A, Waddell MB, Bjornsti MA, Schulman BA.

J Mol Biol. 2007 Jun 8;369(3):619-30.

17.

Covalent modification of the transcriptional repressor tramtrack by the ubiquitin-related protein Smt3 in Drosophila flies.

Lehembre F, Badenhorst P, Müller S, Travers A, Schweisguth F, Dejean A.

Mol Cell Biol. 2000 Feb;20(3):1072-82.

18.

U box proteins as a new family of ubiquitin-protein ligases.

Hatakeyama S, Yada M, Matsumoto M, Ishida N, Nakayama KI.

J Biol Chem. 2001 Aug 31;276(35):33111-20.

19.

Comparative analysis of yeast PIAS-type SUMO ligases in vivo and in vitro.

Takahashi Y, Toh-E A, Kikuchi Y.

J Biochem. 2003 Apr;133(4):415-22.

20.

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