Gina Arents
Affiliations: | 1987 | Biophysics | Johns Hopkins University, Baltimore, MD |
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Santisteban MS, Arents G, Moudrianakis EN, et al. (1997) Histone octamer function in vivo: Mutations in the dimer-tetramer interfaces disrupt both gene activation and repression Embo Journal. 16: 2493-2506 |
Pruss D, Bartholomew B, Persinger J, et al. (1996) An asymmetric model for the nucleosome: A binding site for linker histones inside the DNA gyres Science. 274: 614-617 |
Baxevanis AD, Arents G, Moudrianakis EN, et al. (1995) A variety of DNA-binding and multimeric proteins contain the histone fold motif Nucleic Acids Research. 23: 2685-2691 |
Arents G, Moudrianakis EN. (1995) The histone fold: A ubiquitous architectural motif utilized in DNA compaction and protein dimerization Proceedings of the National Academy of Sciences of the United States of America. 92: 11170-11174 |
Braden BC, Arents G, Padlan EA, et al. (1994) Glycera dibranchiata hemoglobin X-ray structure of carbonmonoxide hemoglobin at 1.5 Å resolution Journal of Molecular Biology. 238: 42-53 |
Wang BC, Rose J, Arents G, et al. (1994) The octameric histone core of the nucleosome: Structural issues resolved Journal of Molecular Biology. 236: 179-188 |
Arents G, Moudrianakis EN. (1993) Topography of the histone octamer surface: Repeating structural motifs utilized in the docking of nucleosomal DNA Proceedings of the National Academy of Sciences of the United States of America. 90: 10489-10493 |
Moudrianakis EN, Arents G. (1993) Structure of the histone octamer core of the nucleosome and its potential interactions with DNA Cold Spring Harbor Symposia On Quantitative Biology. 58: 273-279 |
Arents G, Burlingame RW, Wang BIC, et al. (1991) The nucleosomal core histone octamer at 3.1 Å resolution: A tripartite protein assembly and a left-handed superhelix Proceedings of the National Academy of Sciences of the United States of America. 88: 10148-10152 |
Arents G, Love WE. (1989) Glycera dibranchiata hemoglobin. Structure and refinement at 1.5 Å resolution Journal of Molecular Biology. 210: 149-161 |