Isolation of novel coregulatory protein networks associated with DNA-bound estrogen receptor alpha.

[1]  J. Yates,et al.  The role of retinoblastoma-associated proteins 46 and 48 in estrogen receptor α mediated gene expression , 2008, Molecular and Cellular Endocrinology.

[2]  J. Yates,et al.  Effects of Cu/Zn superoxide dismutase on estrogen responsiveness and oxidative stress in human breast cancer cells. , 2008, Molecular endocrinology.

[3]  J. Yates,et al.  Interaction of the tumor metastasis suppressor nonmetastatic protein 23 homologue H1 and estrogen receptor alpha alters estrogen-responsive gene expression. , 2007, Cancer research.

[4]  J. Yates,et al.  Rho GDP dissociation inhibitor alpha interacts with estrogen receptor alpha and influences estrogen responsiveness. , 2007, Journal of molecular endocrinology.

[5]  J. Yates,et al.  Interaction of estrogen receptor α with proliferating cell nuclear antigen , 2007, Nucleic acids research.

[6]  John R Yates,et al.  The deoxyribonucleic acid repair protein flap endonuclease-1 modulates estrogen-responsive gene expression. , 2007, Molecular endocrinology.

[7]  J. Yates,et al.  Protein Disulfide Isomerase Serves as a Molecular Chaperone to Maintain Estrogen Receptor α Structure and Function , 2006 .

[8]  J. Lieberman,et al.  The exonuclease TREX1 is in the SET complex and acts in concert with NM23-H1 to degrade DNA during granzyme A-mediated cell death. , 2006, Molecular cell.

[9]  T. O'Connor,et al.  Human 3-methyladenine-DNA glycosylase: effect of sequence context on excision, association with PCNA, and stimulation by AP endonuclease. , 2005, Journal of molecular biology.

[10]  J. Yates,et al.  A novel estrogen receptor alpha-associated protein alters receptor-deoxyribonucleic acid interactions and represses receptor-mediated transcription. , 2004, Molecular endocrinology.

[11]  W. Scovell,et al.  High mobility group B proteins facilitate strong estrogen receptor binding to classical and half-site estrogen response elements and relax binding selectivity. , 2004, Molecular endocrinology.

[12]  J. Yates,et al.  Interaction of Estrogen Receptor α with 3-Methyladenine DNA Glycosylase Modulates Transcription and DNA Repair* , 2004, Journal of Biological Chemistry.

[13]  D. Chakravarti,et al.  The Human Proliferating Cell Nuclear Antigen Regulates Transcriptional Coactivator p300 Activity and Promotes Transcriptional Repression* , 2003, Journal of Biological Chemistry.

[14]  J. Lieberman,et al.  Nuclear war: the granzyme A-bomb. , 2003, Current opinion in immunology.

[15]  T. Hakoshima,et al.  Preparation and crystallization of human flap endonuclease FEN-1 in complex with proliferating-cell nuclear antigen, PCNA. , 2003, Acta Crystallographica Section D: Biological Crystallography.

[16]  J. Lieberman,et al.  Tumor Suppressor NM23-H1 Is a Granzyme A-Activated DNase during CTL-Mediated Apoptosis, and the Nucleosome Assembly Protein SET Is Its Inhibitor , 2003, Cell.

[17]  J. Lieberman,et al.  Cleaving the oxidative repair protein Ape1 enhances cell death mediated by granzyme A , 2003, Nature Immunology.

[18]  Judy Lieberman,et al.  HMG2 Interacts with the Nucleosome Assembly Protein SET and Is a Target of the Cytotoxic T-Lymphocyte Protease Granzyme A , 2002, Molecular and Cellular Biology.

[19]  I. Talianidis,et al.  Coordination of PIC Assembly and Chromatin Remodeling During Differentiation-Induced Gene Activation , 2002, Science.

[20]  K. Korach,et al.  Allosteric regulation of estrogen receptor structure, function, and coactivator recruitment by different estrogen response elements. , 2002, Molecular endocrinology.

[21]  A. Nardulli,et al.  Estrogen Response Elements Alter Coactivator Recruitment through Allosteric Modulation of Estrogen Receptor β Conformation* , 2001, The Journal of Biological Chemistry.

[22]  J. Lieberman,et al.  Granzyme A Activates an Endoplasmic Reticulum-associated Caspase-independent Nuclease to Induce Single-stranded DNA Nicks* , 2001, The Journal of Biological Chemistry.

[23]  G. Dianov,et al.  Interaction of human AP endonuclease 1 with flap endonuclease 1 and proliferating cell nuclear antigen involved in long-patch base excision repair. , 2001, Biochemistry.

[24]  C. Klinge Estrogen receptor interaction with estrogen response elements. , 2001, Nucleic acids research.

[25]  J. Wood,et al.  Interaction of estrogen receptors α and β with estrogen response elements , 2001, Molecular and Cellular Endocrinology.

[26]  J. Wood,et al.  Allosteric modulation of estrogen receptor conformation by different estrogen response elements. , 2001, Molecular endocrinology.

[27]  J. Jiricny,et al.  Recent progress in the biology, chemistry and structural biology of DNA glycosylases , 2001, BioEssays : news and reviews in molecular, cellular and developmental biology.

[28]  P. McNamara,et al.  Regulation of Histone Acetylation and Transcription by INHAT, a Human Cellular Complex Containing the Set Oncoprotein , 2001, Cell.

[29]  J. Wood,et al.  Regulation of the estrogen-responsive pS2 gene in MCF-7 human breast cancer cells , 2000, The Journal of Steroid Biochemistry and Molecular Biology.

[30]  L. Freedman,et al.  Functional Interactions between the Estrogen Receptor and DRIP205, a Subunit of the Heteromeric DRIP Coactivator Complex* , 2000, The Journal of Biological Chemistry.

[31]  R. Bambara,et al.  Mechanism Whereby Proliferating Cell Nuclear Antigen Stimulates Flap Endonuclease 1* , 2000, The Journal of Biological Chemistry.

[32]  D. Robyr,et al.  Nuclear hormone receptor coregulators in action: diversity for shared tasks. , 2000, Molecular endocrinology.

[33]  D. Edwards,et al.  Coregulatory proteins in steroid hormone receptor action: The role of chromatin high mobility group proteins HMG-1 and -2 , 1999, Steroids.

[34]  Paul Tempst,et al.  Ligand-dependent transcription activation by nuclear receptors requires the DRIP complex , 1999, Nature.

[35]  D. Shapiro,et al.  HMG-1 stimulates estrogen response element binding by estrogen receptor from stably transfected HeLa cells. , 1999, Molecular endocrinology.

[36]  J. Tainer,et al.  Structure of the DNA Repair and Replication Endonuclease and Exonuclease FEN-1 Coupling DNA and PCNA Binding to FEN-1 Activity , 1998, Cell.

[37]  D. Edwards,et al.  High-Mobility Group Chromatin Proteins 1 and 2 Functionally Interact with Steroid Hormone Receptors To Enhance Their DNA Binding In Vitro and Transcriptional Activity in Mammalian Cells , 1998, Molecular and Cellular Biology.

[38]  R. Roeder,et al.  The TRAP220 component of a thyroid hormone receptor- associated protein (TRAP) coactivator complex interacts directly with nuclear receptors in a ligand-dependent fashion. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[39]  H. Erdjument-Bromage,et al.  A novel protein complex that interacts with the vitamin D3 receptor in a ligand-dependent manner and enhances VDR transactivation in a cell-free system. , 1998, Genes & development.

[40]  C. Glass,et al.  Co-activators and co-repressors in the integration of transcriptional responses. , 1998, Current opinion in cell biology.

[41]  D. Edwards,et al.  The high mobility group protein 1 enhances binding of the estrogen receptor DNA binding domain to the estrogen response element. , 1998, Molecular endocrinology.

[42]  G. Greene,et al.  Estrogen Response Elements Function as Allosteric Modulators of Estrogen Receptor Conformation , 1998, Molecular and Cellular Biology.

[43]  C. Allis,et al.  Steroid receptor coactivator-1 is a histone acetyltransferase , 1997, Nature.

[44]  J. Lieberman,et al.  Recombinant human granzyme A binds to two putative HLA-associated proteins and cleaves one of them. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[45]  P. Meltzer,et al.  AIB1, a steroid receptor coactivator amplified in breast and ovarian cancer. , 1997, Science.

[46]  R. Evans,et al.  Nuclear Receptor Coactivator ACTR Is a Novel Histone Acetyltransferase and Forms a Multimeric Activation Complex with P/CAF and CBP/p300 , 1997, Cell.

[47]  Hui Li,et al.  RAC3, a steroid/nuclear receptor-associated coactivator that is related to SRC-1 and TIF2. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[48]  N. Roodi,et al.  High-mobility group (HMG) protein HMG-1 and TATA-binding protein-associated factor TAF(II)30 affect estrogen receptor-mediated transcriptional activation. , 1997, Molecular endocrinology.

[49]  B. O’Malley,et al.  Coactivator and corepressor regulation of the agonist/antagonist activity of the mixed antiestrogen, 4-hydroxytamoxifen. , 1997, Molecular endocrinology.

[50]  S. Schreiber,et al.  Nuclear Receptor Repression Mediated by a Complex Containing SMRT, mSin3A, and Histone Deacetylase , 1997, Cell.

[51]  C. Glass,et al.  A complex containing N-CoR, mSln3 and histone deacetylase mediates transcriptional repression , 1997, nature.

[52]  M. Garabedian,et al.  GRIP1, a transcriptional coactivator for the AF-2 transactivation domain of steroid, thyroid, retinoid, and vitamin D receptors , 1997, Molecular and cellular biology.

[53]  B. Howard,et al.  The Transcriptional Coactivators p300 and CBP Are Histone Acetyltransferases , 1996, Cell.

[54]  J. Direnzo,et al.  p300 is a component of an estrogen receptor coactivator complex. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[55]  C. Glass,et al.  A nuclear hormone receptor corepressor mediates transcriptional silencing by receptors with distinct repression domains , 1996, Molecular and cellular biology.

[56]  M. Montminy,et al.  Role of CBP/P300 in nuclear receptor signalling , 1996, Nature.

[57]  B. O’Malley,et al.  CREB binding protein acts synergistically with steroid receptor coactivator-1 to enhance steroid receptor-dependent transcription. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[58]  R. Roeder,et al.  Ligand induction of a transcriptionally active thyroid hormone receptor coactivator complex. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[59]  B. Howard,et al.  A p300/CBP-associated factor that competes with the adenoviral oncoprotein E1A , 1996, Nature.

[60]  P. Chambon,et al.  TIF2, a 160 kDa transcriptional mediator for the ligand‐dependent activation function AF‐2 of nuclear receptors. , 1996, The EMBO journal.

[61]  Jun Yu Li,et al.  Processing of branched DNA intermediates by a complex of human FEN-1 and PCNA. , 1996, Nucleic acids research.

[62]  M. Stallcup,et al.  GRIP1, a novel mouse protein that serves as a transcriptional coactivator in yeast for the hormone binding domains of steroid receptors. , 1996, Proceedings of the National Academy of Sciences of the United States of America.

[63]  B. O’Malley,et al.  Sequence and Characterization of a Coactivator for the Steroid Hormone Receptor Superfamily , 1995, Science.

[64]  M. Lieber,et al.  Lagging Strand DNA Synthesis at the Eukaryotic Replication Fork Involves Binding and Stimulation of FEN-1 by Proliferating Cell Nuclear Antigen (*) , 1995, The Journal of Biological Chemistry.

[65]  R. Evans,et al.  A transcriptional co-repressor that interacts with nuclear hormone receptors , 1995, Nature.

[66]  G. Greene,et al.  The interaction of human estrogen receptor with DNA is modulated by receptor-associated proteins. , 1994, Molecular endocrinology.

[67]  G. Martin,et al.  Estrogen receptor-associated proteins: possible mediators of hormone-induced transcription. , 1994, Science.

[68]  J B Lawrence,et al.  Molecular cloning and functional analysis of the adenovirus E1A-associated 300-kD protein (p300) reveals a protein with properties of a transcriptional adaptor. , 1994, Genes & development.

[69]  N. Hilschmann,et al.  Purification and characterization of two putative HLA class II associated proteins: PHAPI and PHAPII. , 1994, Biological chemistry Hoppe-Seyler.

[70]  P. Lipponen,et al.  Proliferating cell nuclear antigen (PCNA) immunolabeling as a prognostic factor in axillary lymph node negative breast cancer. , 1993, Anticancer research.

[71]  J. Yates,et al.  Protein disulfide isomerase serves as a molecular chaperone to maintain estrogen receptor alpha structure and function. , 2006, Molecular endocrinology.

[72]  J. Yates,et al.  A novel estrogen receptor alpha-associated protein, template-activating factor Ibeta, inhibits acetylation and transactivation. , 2003, Molecular endocrinology.

[73]  J. Yates,et al.  A novel estrogen receptor α-associated protein, template-activating factor iβ, inhibits acetylation and transactivation , 2003 .

[74]  J. Wood,et al.  Interaction of estrogen receptors alpha and beta with estrogen response elements. , 2001, Molecular and cellular endocrinology.

[75]  J. Ranish,et al.  Intermediates in formation and activity of the RNA polymerase II preinitiation complex: holoenzyme recruitment and a postrecruitment role for the TATA box and TFIIB. , 1999, Genes & development.

[76]  M. Yancisin,et al.  Functional analysis of a novel estrogen receptor-beta isoform. , 1999, Molecular endocrinology.

[77]  R. Wood DNA repair in eukaryotes. , 1996, Annual review of biochemistry.

[78]  Y. Nakabeppu,et al.  Regulation and expression of the adaptive response to alkylating agents. , 1988, Annual review of biochemistry.