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Items: 1 to 20 of 274

1.

Investigation of interaction between Pax-5 isoforms and thioredoxin using de novo modelling methods.

Cuperlovic-Culf M, Robichaud GA, Nardini M, Ouellette RJ.

In Silico Biol. 2003;3(4):453-69.

PMID:
14965345
2.

Functional analyses of two alternative isoforms of the transcription factor Pax-5.

Lowen M, Scott G, Zwollo P.

J Biol Chem. 2001 Nov 9;276(45):42565-74. Epub 2001 Sep 4.

3.

The Pax-5 gene is alternatively spliced during B-cell development.

Zwollo P, Arrieta H, Ede K, Molinder K, Desiderio S, Pollock R.

J Biol Chem. 1997 Apr 11;272(15):10160-8.

4.

Reduction in DNA binding activity of the transcription factor Pax-5a in B lymphocytes of aged mice.

Anspach J, Poulsen G, Kaattari I, Pollock R, Zwollo P.

J Immunol. 2001 Feb 15;166(4):2617-26.

5.

Human Pax-5 C-terminal isoforms possess distinct transactivation properties and are differentially modulated in normal and malignant B cells.

Robichaud GA, Nardini M, Laflamme M, Cuperlovic-Culf M, Ouellette RJ.

J Biol Chem. 2004 Nov 26;279(48):49956-63. Epub 2004 Sep 22.

6.
7.

Structure of the soluble domain of a membrane-anchored thioredoxin-like protein from Bradyrhizobium japonicum reveals unusual properties.

Capitani G, Rossmann R, Sargent DF, Grütter MG, Richmond TJ, Hennecke H.

J Mol Biol. 2001 Aug 31;311(5):1037-48.

PMID:
11531338
8.

The RUNX1 Runt domain at 1.25A resolution: a structural switch and specifically bound chloride ions modulate DNA binding.

Bäckström S, Wolf-Watz M, Grundström C, Härd T, Grundström T, Sauer UH.

J Mol Biol. 2002 Sep 13;322(2):259-72.

PMID:
12217689
9.

Structural studies on a protein-binding zinc-finger domain of Eos reveal both similarities and differences to classical zinc fingers.

Westman BJ, Perdomo J, Matthews JM, Crossley M, Mackay JP.

Biochemistry. 2004 Oct 26;43(42):13318-27.

PMID:
15491138
10.

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.

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 maize heat shock factor-binding protein paralogs EMP2 and HSBP2 interact non-redundantly with specific heat shock factors.

Fu S, Rogowsky P, Nover L, Scanlon MJ.

Planta. 2006 Jun;224(1):42-52. Epub 2005 Dec 6.

PMID:
16331466
16.

The partial homeodomain of the transcription factor Pax-5 (BSAP) is an interaction motif for the retinoblastoma and TATA-binding proteins.

Eberhard D, Busslinger M.

Cancer Res. 1999 Apr 1;59(7 Suppl):1716s-1724s; discussion 1724s-1725s.

PMID:
10197586
17.

Alteration of the DNA binding domain disrupts distinct functions of the C. elegans Pax protein EGL-38.

Zhang G, Sleiman SF, Tseng RJ, Rajakumar V, Wang X, Chamberlin HM.

Mech Dev. 2005 Jul;122(7-8):887-99.

18.

Structural and functional analyses of disease-causing missense mutations in the forkhead domain of FOXC1.

Saleem RA, Banerjee-Basu S, Berry FB, Baxevanis AD, Walter MA.

Hum Mol Genet. 2003 Nov 15;12(22):2993-3005. Epub 2003 Sep 23.

19.

Crystal structures of two functionally different thioredoxins in spinach chloroplasts.

Capitani G, Marković-Housley Z, DelVal G, Morris M, Jansonius JN, Schürmann P.

J Mol Biol. 2000 Sep 8;302(1):135-54.

PMID:
10964566
20.

Structural classification of thioredoxin-like fold proteins.

Qi Y, Grishin NV.

Proteins. 2005 Feb 1;58(2):376-88.

PMID:
15558583
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