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Items: 1 to 20 of 214

1.

Id helix-loop-helix proteins antagonize pax transcription factor activity by inhibiting DNA binding.

Roberts EC, Deed RW, Inoue T, Norton JD, Sharrocks AD.

Mol Cell Biol. 2001 Jan;21(2):524-33.

2.

Id helix-loop-helix proteins inhibit nucleoprotein complex formation by the TCF ETS-domain transcription factors.

Yates PR, Atherton GT, Deed RW, Norton JD, Sharrocks AD.

EMBO J. 1999 Feb 15;18(4):968-76.

3.

Pax-5 (BSAP) recruits Ets proto-oncogene family proteins to form functional ternary complexes on a B-cell-specific promoter.

Fitzsimmons D, Hodsdon W, Wheat W, Maira SM, Wasylyk B, Hagman J.

Genes Dev. 1996 Sep 1;10(17):2198-211.

4.

Early B-cell factor, E2A, and Pax-5 cooperate to activate the early B cell-specific mb-1 promoter.

Sigvardsson M, Clark DR, Fitzsimmons D, Doyle M, Akerblad P, Breslin T, Bilke S, Li R, Yeamans C, Zhang G, Hagman J.

Mol Cell Biol. 2002 Dec;22(24):8539-51.

5.

Regulation of TCF ETS-domain transcription factors by helix-loop-helix motifs.

Stinson J, Inoue T, Yates P, Clancy A, Norton JD, Sharrocks AD.

Nucleic Acids Res. 2003 Aug 15;31(16):4717-28.

6.

Requirements for selective recruitment of Ets proteins and activation of mb-1/Ig-alpha gene transcription by Pax-5 (BSAP).

Maier H, Ostraat R, Parenti S, Fitzsimmons D, Abraham LJ, Garvie CW, Hagman J.

Nucleic Acids Res. 2003 Oct 1;31(19):5483-9.

7.

The highly conserved beta-hairpin of the paired DNA-binding domain is required for assembly of Pax-Ets ternary complexes.

Wheat W, Fitzsimmons D, Lennox H, Krautkramer SR, Gentile LN, McIntosh LP, Hagman J.

Mol Cell Biol. 1999 Mar;19(3):2231-41.

9.

Highly conserved amino acids in Pax and Ets proteins are required for DNA binding and ternary complex assembly.

Fitzsimmons D, Lutz R, Wheat W, Chamberlin HM, Hagman J.

Nucleic Acids Res. 2001 Oct 15;29(20):4154-65.

10.

Activation of the early B-cell-specific mb-1 (Ig-alpha) gene by Pax-5 is dependent on an unmethylated Ets binding site.

Maier H, Colbert J, Fitzsimmons D, Clark DR, Hagman J.

Mol Cell Biol. 2003 Mar;23(6):1946-60.

11.

Loss of p53 function through PAX-mediated transcriptional repression.

Stuart ET, Haffner R, Oren M, Gruss P.

EMBO J. 1995 Nov 15;14(22):5638-45.

12.

Identification of novel Pax-2 binding sites by chromatin precipitation.

Phelps DE, Dressler GR.

J Biol Chem. 1996 Apr 5;271(14):7978-85.

14.

The thyroid transcription factor 2 (TTF-2) is a promoter-specific DNA-binding independent transcriptional repressor.

Perrone L, Pasca di Magliano M, Zannini M, Di Lauro R.

Biochem Biophys Res Commun. 2000 Aug 18;275(1):203-8.

PMID:
10944465
15.

Two Pax-binding sites are required for early embryonic brain expression of an Engrailed-2 transgene.

Song DL, Chalepakis G, Gruss P, Joyner AL.

Development. 1996 Feb;122(2):627-35.

16.

The helix-loop-helix protein Id-2 enhances cell proliferation and binds to the retinoblastoma protein.

Iavarone A, Garg P, Lasorella A, Hsu J, Israel MA.

Genes Dev. 1994 Jun 1;8(11):1270-84.

17.
18.

Tumor necrosis factor-alpha regulation of thyroid transcription factor-1 and Pax-8 in rat thyroid FRTL-5 cells.

Ohmori M, Harii N, Endo T, Onaya T.

Endocrinology. 1999 Oct;140(10):4651-8.

PMID:
10499522
20.

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