Литература

Altheim B.A. and Schultz M.C., 1999. Histone modification governs the cell cycle regulation of a replication-independent chromatin assembly pathway in Saccharomyces cerevisiae. Proc. Natl. Acad. Sci. 96: 1345-1350.

Amor D.J., Kalitsis P., Sumer H., and Choo K.H., 2004a. Building the centromere: From foundation proteins to 3D organization. Trends Cell Biol. 14: 359.

Amor D.J., Bentley K., Ryan J., Perry J., Wong L., Slater H., and Choo K.H., 2004b. Human centromere repositioning “in progress”. Proc. Natl. Acad. Sci. 101: 6542-6547.

Annunziato A.T., 2005. Split decision: What happens to nucleosomes during DNA replication? J. Biol. Chem. 280: 12065-12068.

Arents G., Burlingame R.W., Wang B.C., Love W.E., and Moudrianakis E.N., 1991. The nucleosomal core histone octamer at 3.1A resolution: A tripartite protein assembly and a left-handed superhelix. Proc. Natl. Acad. Sci. 88: 10148-10152.

Becker P.B. and Horz W., 2002. ATP-dependent nucleosome remodeling. Annu. Rev. Biochem. 71: 247-273.

Belotserkovskaya R., Oh S., Bondarenko V.A., Orphanides G., Studitsky V.M., and Reinberg D., 2003. FACT facilitates transcription-dependent nucleosome alteration. Science 301: 1090-1093.

Chadwick B.R and Willard H.R., 2001. A novel chromatin protein, distantly related to histone H2A, is largely excluded from the inactive X chromosome. J. Cell Biol. 152: 375-384.

Chadwick B.R and Willard H.R., 2004. Multiple spatially distinct types of facultative heterochromatin on the human inactive X chromosome. Proc. Natl. Acad. Sci. 101: 17450-17455.

Downs J.A., Allard S., Jobin-Robitaille O., Javaheri A., Auger A., Bouchard N., Kron S.J., Jackson S.P., and Cote J., 2004. Binding of chromatin-modifying activities to phosphorylated histone H2A at DNA damage sites. Mol. Cell 16: 979-990.

Dryhurst D., Thambirajah A.A., and Ausio J., 2004. New twists on H2A.Z: A histone variant with a controversial structural and functional past. Biochem. Cell Biol. 82: 490-497.

Fan Y., Nikitina T., Morin-Kensicki E.M., Zhao J., Magnuson T.R., WoodcockC.L., and Skoultchi A.I., 2003. HI linkerhistonesare essential for mouse development and affect nucleosome spacing in vivo. Mol. Cell Biol. 23: 4559-4572.

Femandez-Capetillo O., Mahadevaiah S.K., Celeste A., Romamenko P.J., Camerini-Otero R.D., BonnerW.M., ManovaK., Burgoyne P., and Nussenzweig A., 2003. H2AX is required for chromatin remodeling and inactivation of sex chromosomes in male mouse meiosis. Dev. Cell 4: 497-508.

Formosa T, Ruone S., Adams M.D., Olsen A.E., Eriksson P., Yu Y., Roades A.R., Kaufman P.D., and Stillman D.J., 2002. Defects in SPT16 or POB3 (yFACT) in Saccharomyces cerevisiae cause dependence on the Hir/Hpc pathway: Polymerase passage may degrade chromatin structure. Genetics 162: 1557-1571

Henikoff S. and Ahmad K., 2005. Assembly of variant histones into chromatin. Annu. Rev. Cell Dev. Biol. 21: 133-153.

Jenuwein T., 2001. Re-SET-ting heterochromatin by histone methyltransferases. Trends Cell Biol. 11: 266-273.

Jenuwein T. and Allis C.D., 2001. Translating the histone code Science 293: 1074-1080.

Kamakaka R.T. and Biggins S., 2005. Histone variants: Deviants? Genes Dev., 19: 295-310.

Krogan N.J., Baetz K., Keogh M.C., Datta N., Sawa C, KwokT.C., Thompson N.J., Davey M.G., Pootoolal J., Hughes T.R., et al., 2004. Regulation of chromosome stability by the histone H2A variant Htzl, the Swrl chromatin remodeling complex, and the histone acetyltransferase NuA4. Proc. Natl. Acad. Sci. 101: 13513-13518.

Kurdistani S.K., Tavazoie S., and Grunstein M., 2004. Mapping global histone acetylation patterns to gene expression. Cell 117: 721-733.

Ladurner A.G., 2003. Inactivating chromosomes: A macro domain that minimizes transcription. Mol. Cell 12: 1-3.

Lowndes N.R. and Toh G.W., 2005. DNA repair: The importance of phosphorylating histone H2AX. Curr. Biol. 15: R99-R102.

Loyola A. and Almouzni G., 2004. Histone chaperones, a supporting role in the limelight. Biochim. Biophys. Acta 1677: 3-11.

Luger K., Mader A.W., Richmond R.K., Sargent D.R., and Richmond T.J., 1997. Crystal structure of the nucleosome core particle at 2.8 E resolution. Nature 389: 251-260.

Malik H.S. and Henikoff S., 2003. Phylogenomics of the nucleosome. Nat. Struct. Biol. 10: 882-891.

Marc F., Sandman K., Lurz R., and Reeve J.N., 2002. Archaeal histone tetramerization determines DNA affinity and the direction of DNA supercoiling. J. Biol. Chem. 277: 30879-30886.

Marzluff W., Rand Duromo R.J., 2002. Histone mRNA expression: Multiple levels of cell cycle regulation and important developmental consequences. Curr. Opin. Cell Biol. 14: 692-699.

Marzluff W.R., Gongidi P., Woods K.R., Jin J., and Maltais L.J., 2002. The human and mouse replication-dependent histone genes. Genomics 80: 487-498.

Morrison A.J. and Shen X., 2005. DNA repair in the context of chromatin. Cell Cycle 4: 568-571.

O’Neill L.P., Randall T.E., Lavender J., Spotswood H.T., Lee J.T., and Turner B.M., 2003. X-linked genes in female embryonic stem cells carry an epigenetic mark prior to the onset of X inactivation. Hum. Mol. Genet. 12: 1783-1790.

Palmer D.K., O’Day K., and Margolis R.L., 1990. The centromere specific histone CENP-A is selectively retained in discrete foci in mammalian sperm nuclei. Chromosoma 100: 32-36.

Palmer D.K., O’Day K., Trong H.L., Charbonneau H., and Margolis R.L., 1991. Purification of the centromere-specific protein CENP-A and demonstration that it is a distinctive histone. Proc. Natl. Acad. Sci. 88: 3734-3738.

Phair R.D., Scaffidi P., Elbi C, Vecerova J., DeyA., Ozato K., Brown D.T., Hager G., Bustin M., and Misteli T., 2004. Global nature of dynamic protein-chromatin interactions in vivo: Three-dimensional genome scanning and dynamic interaction networks of chromatin proteins. Mol Cell. Biol. 24: 6393-6402.

Rakyan V. and Whitelaw E., 2003. Transgenerational epigenetic inheritance. Curr. Biol. 13: R6.

Sarma K. and Reinberg D., 2005. Histone variants meet their match. Nat. Rev. Mol. Cell Biol. 6: 139-149.

Schubeler D., MacAlpine D.M., Scalzo D., WirbelauerC., Kooperbeig C., van Leeuwen R, Gottschling D.E., O’Neill L.P., Turner B.M., Delrow J., et al. The histone modification pattern of active genes revealed through genome-wide chromatin analysis of a higher eukaryote. Genes Dev. 18: 1263-1271.

Schwartz B.E. and Ahmad K., 2005. Transcriptional activation triggers deposition and removal of the histone variant H3.3. Genes Dev., 19: 804-814.

Shi Y., Lan R., Matson C., Mulligan P., Whetstine J.R., Cole P.A., Casero R.A., and Shi Y., 2004. Histone demethylation mediated by the nuclear amine oxidase homolog LSD1. Cell 119: 941-953.

Sullivan B.A. and Karpen G.H., 2004. Centromeric chromatin exhibits a histone modification pattern that is distinct from both euchromatin and heterochromatin. Nat. Struct. Mol. Biol. 11: 1076-1083.

Suto R.K., Clarkson M.J., Tremethick D.J., and Luger K., 2000. Crystal structure of a nucleosome core particle containing the variant histone H2A.Z. Nat. Struct. Biol. 7: 1121-1124.

Talbert P.B., Bryson T.D., and Henikoff S., 2004. Adaptive evolution of centromere proteins in plants and animals. /. Biol. 3: 18.

Waterborg J.H., 1993. Dynamic methylation of alfalfa histone H3. J. Biol. Chem. 268: 4918-4921.

Weiler K.S. and Wakimoto B.T., 1995. Heterochromatin and gene expression in Drosophila. Annu. Rev. Genet. 29: 577-605.

Wieland G., Orthaus S., Ohndorf S., Diekmann S., and Hemmerich P., 2004. Functional complementation of human centromere protein A (CENP-A) by Cse4p from Saccharomyces cerevisiae. Mol Cell. Biol. 24: 6620-6630.

Witt O., Albig W., and Doenecke D., 1996. Testis-specific expression of a novel human H3 histone gene. Exp. Cell Res. 229: 301-306.

Wolffe A.P., 1992. Chromatin: Structure andfunction. Academic Press, San Diego.