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Items: 1 to 20 of 171

1.

DNA bending by charged peptides: electrophoretic and spectroscopic analyses.

McDonald RJ, Dragan AI, Kirk WR, Neff KL, Privalov PL, Maher LJ 3rd.

Biochemistry. 2007 Mar 6;46(9):2306-16.

PMID:
17279773
2.

DNA bending by bZIP charge variants: a unified study using electrophoretic phasing and fluorescence resonance energy transfer.

Hardwidge PR, Wu J, Williams SL, Parkhurst KM, Parkhurst LJ, Maher LJ 3rd.

Biochemistry. 2002 Jun 18;41(24):7732-42.

PMID:
12056905
3.

Reflections on apparent DNA bending by charge variants of bZIP proteins.

Hardwidge PR, Parkhurst KM, Parkhurst LJ, Maher LJ 3rd.

Biopolymers. 2003 May;69(1):110-7.

PMID:
12717726
4.

Dominant effect of protein charge rather than protein shape in apparent DNA bending by engineered bZIP domains.

Hardwidge PR, Kahn JD, Maher LJ 3rd.

Biochemistry. 2002 Jul 2;41(26):8277-88.

PMID:
12081476
5.

Electrostatic mechanism for DNA bending by bZIP proteins.

Paolella DN, Liu Y, Fabian MA, Schepartz A.

Biochemistry. 1997 Aug 19;36(33):10033-8.

PMID:
9254598
6.

Reversible photocontrol of DNA binding by a designed GCN4-bZIP protein.

Woolley GA, Jaikaran AS, Berezovski M, Calarco JP, Krylov SN, Smart OS, Kumita JR.

Biochemistry. 2006 May 16;45(19):6075-84.

PMID:
16681380
7.

Electrostatic effects in DNA bending by GCN4 mutants.

Strauss-Soukup JK, Maher LJ 3rd.

Biochemistry. 1998 Jan 27;37(4):1060-6.

PMID:
9454597
9.

DNA bending by bHLH charge variants.

McDonald RJ, Kahn JD, Maher LJ 3rd.

Nucleic Acids Res. 2006;34(17):4846-56.

10.

DNA bending by GCN4 mutants bearing cationic residues.

Strauss-Soukup JK, Maher LJ 3rd.

Biochemistry. 1997 Aug 19;36(33):10026-32.

PMID:
9254597
11.

Cobalt(II)-responsive DNA binding of a GCN4-bZIP protein containing cysteine residues functionalized with iminodiacetic acid.

Azuma Y, Imanishi M, Yoshimura T, Kawabata T, Futaki S.

Angew Chem Int Ed Engl. 2009;48(37):6853-6. doi: 10.1002/anie.200902888. No abstract available.

PMID:
19655361
12.

Stabilization of bzip peptides through incorporation of fluorinated aliphatic residues.

Son S, Tanrikulu IC, Tirrell DA.

Chembiochem. 2006 Aug;7(8):1251-7.

PMID:
16758500
13.

In vitro selection by using mutated GCN4-bZIP peptides for analysis of peptide-DNA interactions.

Furusawa H, Morii T, Okahata Y.

Nucleic Acids Symp Ser. 2000;(44):245-6.

14.

Detection of DNA bending in a DNA-PAP1 protein complex by fluorescence resonance energy transfer.

Ozaki H, Iwase N, Sawai H, Kodama T, Kyogoku Y.

Biochem Biophys Res Commun. 1997 Feb 24;231(3):553-6.

PMID:
9070843
15.

DNA-binding domain of GCN4 induces bending of both the ATF/CREB and AP-1 binding sites of DNA.

Dragan AI, Liu Y, Makeyeva EN, Privalov PL.

Nucleic Acids Res. 2004 Sep 30;32(17):5192-7.

16.

A photoswitchable DNA-binding protein based on a truncated GCN4-photoactive yellow protein chimera.

Morgan SA, Woolley GA.

Photochem Photobiol Sci. 2010 Oct 28;9(10):1320-6. doi: 10.1039/c0pp00214c.

PMID:
20835493
17.

Inhibition of major groove DNA binding bZIP proteins by positive patch polyamides.

Bremer RE, Wurtz NR, Szewczyk JW, Dervan PB.

Bioorg Med Chem. 2001 Aug;9(8):2093-103.

PMID:
11504645
18.
19.

Use of fluorescence resonance energy transfer (FRET) in studying protein-induced DNA bending.

Dragan AI, Privalov PL.

Methods Enzymol. 2008;450:185-99. doi: 10.1016/S0076-6879(08)03409-5. Review.

PMID:
19152861
20.

Sry-directed sex reversal in transgenic mice is robust with respect to enhanced DNA bending: comparison of human and murine HMG boxes.

Phillips NB, Nikolskaya T, Jancso-Radek A, Ittah V, Jiang F, Singh R, Haas E, Weiss MA.

Biochemistry. 2004 Jun 8;43(22):7066-81.

PMID:
15170344
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