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Items: 1 to 20 of 72

1.

Cluster analysis of mass spectrometry data reveals a novel component of SAGA.

Powell DW, Weaver CM, Jennings JL, McAfee KJ, He Y, Weil PA, Link AJ.

Mol Cell Biol. 2004 Aug;24(16):7249-59.

2.

Molecular architecture of the S. cerevisiae SAGA complex.

Wu PY, Ruhlmann C, Winston F, Schultz P.

Mol Cell. 2004 Jul 23;15(2):199-208.

3.

Shp1 and Ubx2 are adaptors of Cdc48 involved in ubiquitin-dependent protein degradation.

Schuberth C, Richly H, Rumpf S, Buchberger A.

EMBO Rep. 2004 Aug;5(8):818-24. Epub 2004 Jul 16.

4.
5.

Sus1, a functional component of the SAGA histone acetylase complex and the nuclear pore-associated mRNA export machinery.

Rodríguez-Navarro S, Fischer T, Luo MJ, Antúnez O, Brettschneider S, Lechner J, Pérez-Ortín JE, Reed R, Hurt E.

Cell. 2004 Jan 9;116(1):75-86.

6.

A Snf2 family ATPase complex required for recruitment of the histone H2A variant Htz1.

Krogan NJ, Keogh MC, Datta N, Sawa C, Ryan OW, Ding H, Haw RA, Pootoolal J, Tong A, Canadien V, Richards DP, Wu X, Emili A, Hughes TR, Buratowski S, Greenblatt JF.

Mol Cell. 2003 Dec;12(6):1565-76.

7.

The Pfam protein families database.

Bateman A, Coin L, Durbin R, Finn RD, Hollich V, Griffiths-Jones S, Khanna A, Marshall M, Moxon S, Sonnhammer EL, Studholme DJ, Yeats C, Eddy SR.

Nucleic Acids Res. 2004 Jan 1;32(Database issue):D138-41.

8.

Deubiquitination of histone H2B by a yeast acetyltransferase complex regulates transcription.

Daniel JA, Torok MS, Sun ZW, Schieltz D, Allis CD, Yates JR 3rd, Grant PA.

J Biol Chem. 2004 Jan 16;279(3):1867-71. Epub 2003 Dec 3.

9.

ATP-driven exchange of histone H2AZ variant catalyzed by SWR1 chromatin remodeling complex.

Mizuguchi G, Shen X, Landry J, Wu WH, Sen S, Wu C.

Science. 2004 Jan 16;303(5656):343-8. Epub 2003 Nov 26.

10.

Transcriptional activation via sequential histone H2B ubiquitylation and deubiquitylation, mediated by SAGA-associated Ubp8.

Henry KW, Wyce A, Lo WS, Duggan LJ, Emre NC, Kao CF, Pillus L, Shilatifard A, Osley MA, Berger SL.

Genes Dev. 2003 Nov 1;17(21):2648-63. Epub 2003 Oct 16.

11.

Structural basis for histone and phosphohistone binding by the GCN5 histone acetyltransferase.

Clements A, Poux AN, Lo WS, Pillus L, Berger SL, Marmorstein R.

Mol Cell. 2003 Aug;12(2):461-73.

12.

A panoramic view of yeast noncoding RNA processing.

Peng WT, Robinson MD, Mnaimneh S, Krogan NJ, Cagney G, Morris Q, Davierwala AP, Grigull J, Yang X, Zhang W, Mitsakakis N, Ryan OW, Datta N, Jojic V, Pal C, Canadien V, Richards D, Beattie B, Wu LF, Altschuler SJ, Roweis S, Frey BJ, Emili A, Greenblatt JF, Hughes TR.

Cell. 2003 Jun 27;113(7):919-33.

13.

A nucleosomal function for IkappaB kinase-alpha in NF-kappaB-dependent gene expression.

Anest V, Hanson JL, Cogswell PC, Steinbrecher KA, Strahl BD, Baldwin AS.

Nature. 2003 Jun 5;423(6940):659-63.

PMID:
12789343
14.

Histone H3 phosphorylation by IKK-alpha is critical for cytokine-induced gene expression.

Yamamoto Y, Verma UN, Prajapati S, Kwak YT, Gaynor RB.

Nature. 2003 Jun 5;423(6940):655-9.

PMID:
12789342
15.

The Paf1 complex is required for histone H3 methylation by COMPASS and Dot1p: linking transcriptional elongation to histone methylation.

Krogan NJ, Dover J, Wood A, Schneider J, Heidt J, Boateng MA, Dean K, Ryan OW, Golshani A, Johnston M, Greenblatt JF, Shilatifard A.

Mol Cell. 2003 Mar;11(3):721-9.

17.

Regulation of TATA-binding protein binding by the SAGA complex and the Nhp6 high-mobility group protein.

Yu Y, Eriksson P, Bhoite LT, Stillman DJ.

Mol Cell Biol. 2003 Mar;23(6):1910-21.

18.

Bre1, an E3 ubiquitin ligase required for recruitment and substrate selection of Rad6 at a promoter.

Wood A, Krogan NJ, Dover J, Schneider J, Heidt J, Boateng MA, Dean K, Golshani A, Zhang Y, Greenblatt JF, Johnston M, Shilatifard A.

Mol Cell. 2003 Jan;11(1):267-74.

19.

A conserved RING finger protein required for histone H2B monoubiquitination and cell size control.

Hwang WW, Venkatasubrahmanyam S, Ianculescu AG, Tong A, Boone C, Madhani HD.

Mol Cell. 2003 Jan;11(1):261-6.

20.

Crystal structure of a UBP-family deubiquitinating enzyme in isolation and in complex with ubiquitin aldehyde.

Hu M, Li P, Li M, Li W, Yao T, Wu JW, Gu W, Cohen RE, Shi Y.

Cell. 2002 Dec 27;111(7):1041-54.

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