Reuniting the contrasting functions of H2A.Z.
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[1] J. Ausió,et al. H2A.Z Stabilizes Chromatin in a Way That Is Dependent on Core Histone Acetylation* , 2006, Journal of Biological Chemistry.
[2] Danish Sayed,et al. Histone H2A.z Is Essential for Cardiac Myocyte Hypertrophy but Opposed by Silent Information Regulator 2α* , 2006, Journal of Biological Chemistry.
[3] M. Washburn,et al. Purification of a human SRCAP complex that remodels chromatin by incorporating the histone variant H2A.Z into nucleosomes. , 2006, Biochemistry.
[4] M. Grunstein,et al. Acetylation of H2AZ Lys 14 is associated with genome-wide gene activity in yeast. , 2006, Genes & development.
[5] J. E. Halley,et al. Telomeric heterochromatin boundaries require NuA4-dependent acetylation of histone variant H2A.Z in Saccharomyces cerevisiae. , 2006, Genes & development.
[6] N. Krogan,et al. The Saccharomyces cerevisiae histone H2A variant Htz1 is acetylated by NuA4. , 2006, Genes & development.
[7] O. Aparicio,et al. H2A.Z Functions To Regulate Progression through the Cell Cycle , 2006, Molecular and Cellular Biology.
[8] Wei-Hua Wu,et al. Swc2 is a widely conserved H2AZ-binding module essential for ATP-dependent histone exchange , 2005, Nature Structural &Molecular Biology.
[9] J. Workman,et al. Preferential occupancy of histone variant H2AZ at inactive promoters influences local histone modifications and chromatin remodeling. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[10] J. Workman,et al. In and out: histone variant exchange in chromatin. , 2005, Trends in biochemical sciences.
[11] Mathieu Blanchette,et al. Variant Histone H2A.Z Is Globally Localized to the Promoters of Inactive Yeast Genes and Regulates Nucleosome Positioning , 2005, PLoS biology.
[12] S. Schreiber,et al. Histone Variant H2A.Z Marks the 5′ Ends of Both Active and Inactive Genes in Euchromatin , 2005, Cell.
[13] B. Cairns,et al. Genome-Wide Dynamics of Htz1, a Histone H2A Variant that Poises Repressed/Basal Promoters for Activation through Histone Loss , 2005, Cell.
[14] C. Bonifer,et al. The replacement histone H2A.Z in a hyperacetylated form is a feature of active genes in the chicken , 2005, Nucleic acids research.
[15] N. Friedman,et al. Single-Nucleosome Mapping of Histone Modifications in S. cerevisiae , 2005, PLoS biology.
[16] Megan F. Cole,et al. Genome-wide Map of Nucleosome Acetylation and Methylation in Yeast , 2005, Cell.
[17] Lani F. Wu,et al. Genome-Scale Identification of Nucleosome Positions in S. cerevisiae , 2005, Science.
[18] E. Rubio,et al. Transcription-induced Chromatin Remodeling at the c-myc Gene Involves the Local Exchange of Histone H2A.Z* , 2005, Journal of Biological Chemistry.
[19] S. Lowe,et al. p400 Is Required for E1A to Promote Apoptosis* , 2005, Journal of Biological Chemistry.
[20] J. Workman,et al. The Mammalian YL1 Protein Is a Shared Subunit of the TRRAP/TIP60 Histone Acetyltransferase and SRCAP Complexes* , 2005, Journal of Biological Chemistry.
[21] S. Lowe,et al. The p400 E1A-associated protein is a novel component of the p53 --> p21 senescence pathway. , 2005, Genes & development.
[22] V. Corces,et al. The role of histone H2Av variant replacement and histone H4 acetylation in the establishment of Drosophila heterochromatin. , 2005, Genes & development.
[23] R Dulbecco,et al. Gene expression profiles of epithelial cells microscopically isolated from a breast-invasive ductal carcinoma and a nodal metastasis , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[24] John R Yates,et al. Acetylation by Tip60 Is Required for Selective Histone Variant Exchange at DNA Lesions , 2004, Science.
[25] Kevin Struhl,et al. Evidence for Eviction and Rapid Deposition of Histones upon Transcriptional Elongation by RNA Polymerase II , 2004, Molecular and Cellular Biology.
[26] K. Luger,et al. H2A.Z alters the nucleosome surface to promote HP1alpha-mediated chromatin fiber folding. , 2004, Molecular cell.
[27] P. Ridgway,et al. Unique Residues on the H2A.Z Containing Nucleosome Surface Are Important for Xenopus laevis Development*♦ , 2004, Journal of Biological Chemistry.
[28] T. Hughes,et al. Regulation of chromosome stability by the histone H2A variant Htz1, the Swr1 chromatin remodeling complex, and the histone acetyltransferase NuA4. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[29] J. Ausió,et al. New twists on H2A.Z: a histone variant with a controversial structural and functional past. , 2004, Biochemistry and cell biology = Biochimie et biologie cellulaire.
[30] J. Lieb,et al. Evidence for nucleosome depletion at active regulatory regions genome-wide , 2004, Nature Genetics.
[31] P. Brown,et al. Large-scale meta-analysis of cancer microarray data identifies common transcriptional profiles of neoplastic transformation and progression. , 2004, Proceedings of the National Academy of Sciences of the United States of America.
[32] D. Tremethick,et al. RNA interference demonstrates a novel role for H2A.Z in chromosome segregation , 2004, Nature Structural &Molecular Biology.
[33] J Seth Strattan,et al. Removal of promoter nucleosomes by disassembly rather than sliding in vivo. , 2004, Molecular cell.
[34] K. Luger,et al. A New Fluorescence Resonance Energy Transfer Approach Demonstrates That the Histone Variant H2AZ Stabilizes the Histone Octamer within the Nucleosome* , 2004, Journal of Biological Chemistry.
[35] Jacques Côté,et al. The highly conserved and multifunctional NuA4 HAT complex. , 2004, Current opinion in genetics & development.
[36] Andrew J Link,et al. A Protein Complex Containing the Conserved Swi2/Snf2-Related ATPase Swr1p Deposits Histone Variant H2A.Z into Euchromatin , 2004, PLoS biology.
[37] Andrew Flaus,et al. Sin mutations alter inherent nucleosome mobility , 2004, The EMBO journal.
[38] Wei-Hua Wu,et al. ATP-Driven Exchange of Histone H2AZ Variant Catalyzed by SWR1 Chromatin Remodeling Complex , 2004, Science.
[39] Huiming Ding,et al. A Snf2 family ATPase complex required for recruitment of the histone H2A variant Htz1. , 2003, Molecular cell.
[40] L. Gaudreau,et al. H2A.Z has a function reminiscent of an activator required for preferential binding to intergenic DNA , 2003, The EMBO journal.
[41] H. Reinke,et al. Histones are first hyperacetylated and then lose contact with the activated PHO5 promoter. , 2003, Molecular cell.
[42] J Seth Strattan,et al. Nucleosomes unfold completely at a transcriptionally active promoter. , 2003, Molecular cell.
[43] P. Ridgway,et al. Pericentric heterochromatin becomes enriched with H2A.Z during early mammalian development , 2003, The EMBO journal.
[44] Hiten D. Madhani,et al. Conserved Histone Variant H2A.Z Protects Euchromatin from the Ectopic Spread of Silent Heterochromatin , 2003, Cell.
[45] S. Buratowski,et al. Different sensitivities of bromodomain factors 1 and 2 to histone H4 acetylation. , 2003, Molecular cell.
[46] S. Schreiber,et al. Global approaches to chromatin. , 2002, Chemistry & biology.
[47] Nicola J. Rinaldi,et al. Transcriptional Regulatory Networks in Saccharomyces cerevisiae , 2002, Science.
[48] S. Lomvardas,et al. Modifying Gene Expression Programs by Altering Core Promoter Chromatin Architecture , 2002, Cell.
[49] A. Parle‐McDermott,et al. Gene expression differences between the microsatellite instability (MIN) and chromosomal instability (CIN) phenotypes in colorectal cancer revealed by high-density cDNA array hybridization , 2002, Oncogene.
[50] E. Rogakou,et al. Histone H2A variants H2AX and H2AZ. , 2002, Current opinion in genetics & development.
[51] D. W. Abbott,et al. Characterization of the Stability and Folding of H2A.Z Chromatin Particles , 2001, The Journal of Biological Chemistry.
[52] F. Robert,et al. H2A.Z Is Required for Global Chromatin Integrity and for Recruitment of RNA Polymerase II under Specific Conditions , 2001, Molecular and Cellular Biology.
[53] P. Rathjen,et al. Histone variant H2A.Z is required for early mammalian development , 2001, Current Biology.
[54] Q. Ren,et al. Histone H2A.Z acetylation modulates an essential charge patch. , 2001, Molecular cell.
[55] K. Luger,et al. Crystal structure of a nucleosome core particle containing the variant histone H2A.Z , 2000, Nature Structural Biology.
[56] Tatyana Kalashnikova,et al. Histone H2A.Z Regulates Transcription and Is Partially Redundant with Nucleosome Remodeling Complexes , 2000, Cell.
[57] N. Dhillon,et al. A histone variant, Htz1p, and a Sir1p-like protein, Esc2p, mediate silencing at HMR. , 2000, Molecular cell.
[58] Jun Qin,et al. Involvement of the TIP60 Histone Acetylase Complex in DNA Repair and Apoptosis , 2000, Cell.
[59] D. Tremethick,et al. Regions of variant histone His2AvD required for Drosophila development , 1999, Nature.
[60] X. Liu,et al. Essential and nonessential histone H2A variants in Tetrahymena thermophila , 1996, Molecular and cellular biology.
[61] T. Thatcher,et al. Phylogenetic analysis of the core histones H2A, H2B, H3, and H4. , 1994, Nucleic acids research.
[62] J. Davie,et al. Effects of histone acetylation, ubiquitination and variants on nucleosome stability. , 1993, The Biochemical journal.
[63] W. Bonner,et al. Separation of basal histone synthesis from S-phase histone synthesis in dividing cells , 1981, Cell.
[64] C. Allis,et al. Histone variants specific to the transcriptionally active, amitotically dividing macronucleus of the unicellular eucaryote, tetrahymena thermophila , 1980, Cell.