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Literature DB >> 9495834

DNA bending and the curious case of Fos/Jun.

Abstract

DNA bending has been implicated as an important regulatory mechanism in several processes involving protein-DNA interactions. Various methods for examining intrinsic and protein-induced DNA bending may lead to different conclusions. For the Fos and Jun transcription factors, this has resulted in controversy over whether these factors significantly bend DNA at all.

Entities: Gene

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Year: 1998 PMID： 9495834 DOI： 10.1016/s1074-5521(98)90139-9

Source DB: PubMed Journal: Chem Biol ISSN： 1074-5521

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Cited

7 in total

1. The SKN-1 amino-terminal arm is a DNA specificity segment.

Authors: T Kophengnavong; A S Carroll; T K Blackwell
Journal: Mol Cell Biol Date: 1999-04 Impact factor: 4.272

2. Effects of HU binding on the equilibrium cyclization of mismatched, curved, and normal DNA.

Authors: Haribabu Arthanari; Kristi Wojtuszewski; Ishita Mukerji; Philip H Bolton
Journal: Biophys J Date: 2004-03 Impact factor: 4.033

3. Intrinsic curvature in the VP1 gene of SV40: comparison of solution and gel results.

Authors: Yongjun Lu; Brock D Weers; Nancy C Stellwagen
Journal: Biophys J Date: 2004-11-19 Impact factor: 4.033

4. An assessment of three dinucleotide parameters to predict DNA curvature by quantitative comparison with experimental data.

Authors: Aditi Kanhere; Manju Bansal
Journal: Nucleic Acids Res Date: 2003-05-15 Impact factor: 16.971

DNA bending and the curious case of Fos/Jun.

1. The SKN-1 amino-terminal arm is a DNA specificity segment.

2. Effects of HU binding on the equilibrium cyclization of mismatched, curved, and normal DNA.

3. Intrinsic curvature in the VP1 gene of SV40: comparison of solution and gel results.

4. An assessment of three dinucleotide parameters to predict DNA curvature by quantitative comparison with experimental data.

5. Analysis of the intrinsic bend in the M13 origin of replication by atomic force microscopy.

6. Probing the DNA kink structure induced by the hyperthermophilic chromosomal protein Sac7d.

7. MiR-501-3p Forms a Feedback Loop with FOS, MDFI, and MyoD to Regulate C2C12 Myogenesis.