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Journal of Biomolecular Structure and Dynamics Volume 32, 2014 - Issue 4
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Articles

Isw1a does not have strict limitations on the length of extranucleosomal DNAs for mobilization of nucleosomes assembled with HeLa cell histones

Wladyslaw A. KrajewskiDepartment of Biochemistry, Institute of Developmental Biology, ul. Vavilova 26, Moscow, 119991, Russian Federation.;Department of Genome Organization, Institute of Molecular Biology, ul. Vavilova 32, Moscow, 119334, Russian Federation.Correspondence[email protected]
Pages 523-531 | Received 04 Dec 2012, Accepted 26 Feb 2013, Published online: 13 Apr 2013

References

  • Ando, T., & Skolnick, J. (2010). Crowding and hydrodynamic interactions likely dominate in vivo macromolecular motion. Proceedings of the National Academy of Sciences USA, 107, 18457–18462.
  • Blank, T. A., & Becker, P. B. (1995). Electrostatic mechanism of nucleosome spacing. Journal of Molecular Biology, 252, 305–313.
  • Carey, M., Li, B., & Workman, J. L. (2006). RSC exploits histone acetylation to abrogate the nucleosomal block to RNA polymerase II elongation. Molecular Cell, 24, 481–487.
  • Clapier, C. R., & Cairns, B. R. (2009). The biology of chromatin remodeling complexes. Annual Reviews of Biochemistry, 78, 273–304.
  • Dang, W., Kagalwala, M. N., & Bartholomew, B. (2006). Regulation of ISW2 by concerted action of histone H4 tail and extranucleosomal DNA. Molecular and Cellular Biology, 26, 7388–7396.
  • Gangaraju, V. K., & Bartholomew, B. (2007). Dependency of ISW1a chromatin remodeling on extranucleosomal DNA. Molecular and Cellular Biology, 27, 3217–3225.
  • Hargreaves, D. C., & Crabtree, G. R. (2011). ATP-dependent chromatin remodeling: Genetics, genomics and mechanisms. Cell Research, 21, 396–420.
  • Hota, S. K., & Bartholomew, B. (2011). Diversity of operation in ATP-dependent chromatin remodelers. Biochemistry and Biophysical Acta, 1809, 476–487.
  • Krajewski, W. A., & Vassiliev, O. L. (2010). The Saccharomyces cerevisiae Swi/Snf complex can catalyze formation of dimeric nucleosome structures in vitro. Biochemistry, 49, 6531–6540.
  • Luger, K., Mader, A. W., Richmond, R. K., Sargent, D. F., & Richmond, T. J. (1997). Crystal structure of the nucleosome core particle at 2.8 A resolution. Nature, 389, 251–260.
  • Meersseman, G., Pennings, S., & Bradbury, E. M. (1992). Mobile nucleosomes – A general behavior. The EMBO Journal, 11, 2951–2959.
  • Owen-Hughes, T., Utley, R. T., Steger, D. J., West, J. M., John, S., Cote, J., Havas, K. M., & Workman, J. L. (1999). Analysis of nucleosome disruption by ATP-driven chromatin remodeling complexes. Methods in Molecular Biology, 119, 319–331.
  • Stockdale, C., Flaus, A., Ferreira, H., & Owen-Hughes, T. (2006). Analysis of nucleosome repositioning by yeast ISWI and Chd1 chromatin remodeling complexes. Journal of Biological Chemistry, 281, 16279–16288.
  • Thastrom, A., Bingham, L. M., & Widom, J. (2004). Nucleosomal locations of dominant DNA sequence motifs for histone-DNA interactions and nucleosome positioning. Journal of Molecular Biology, 338, 695–709.
  • Tsukiyama, T., Palmer, J., Landel, C. C., Shiloach, J., & Wu, C. (1999). Characterization of the imitation switch subfamily of ATP-dependent chromatin-remodeling factors in Saccharomyces cerevisiae. Genes and Development, 13, 686–697.
  • Vary, J. C., Jr, Gangaraju, V. K., Qin, J., Landel, C. C., Kooperberg, C., Bartholomew, B., & Tsukiyama, T. (2003). Yeast Isw1p forms two separable complexes in vivo. Molecular and Cellular Biology, 23, 80–91.
  • Zofall, M., Persinger, J., Kassabov, S. R., & Bartholomew, B. (2006). Chromatin remodeling by ISW2 and SWI/SNF requires DNA translocation inside the nucleosome. Nature Structural and Molecular Biology, 13, 339–346.

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