Standout Papers

Transcriptional repression by the methyl-CpG-binding protein MeCP2 involve... 1991 2026 2002 2014 2.7k
  1. Transcriptional repression by the methyl-CpG-binding protein MeCP2 involves a histone deacetylase complex (1998)
    Xinsheng Nan, Huck‐Hui Ng et al. Nature
  2. Max: A Helix-Loop-Helix Zipper Protein That Forms a Sequence-Specific DNA-Binding Complex with Myc (1991)
    Elizabeth M. Blackwood, Robert N. Eisenman Science
  3. The Myc/Max/Mad Network and the Transcriptional Control of Cell Behavior (2000)
    Carla Grandori, Shaun M. Cowley et al. Annual Review of Cell and Developmental Biology
  4. A complex containing N-CoR, mSln3 and histone deacetylase mediates transcriptional repression (1997)
    Thorsten Heinzel, Tina-Marie Mullen et al. Nature
  5. Histone Deacetylases Associated with the mSin3 Corepressor Mediate Mad Transcriptional Repression (1997)
    Carol D. Laherty, Wen‐Ming Yang et al. Cell
  6. Sequence-Specific DNA Binding by the c-Myc Protein (1990)
    T. Keith Blackwell, Leo Kretzner et al. Science
  7. The Fbw7 tumor suppressor regulates glycogen synthase kinase 3 phosphorylation-dependent c-Myc protein degradation (2004)
    Markus Welcker, Amir Orian et al. Proceedings of the National Academy of Sciences
  8. Myc’s broad reach (2008)
    Martin Eilers, Robert N. Eisenman Genes & Development
  9. Expression analysis with oligonucleotide microarrays reveals that MYC regulates genes involved in growth, cell cycle, signaling, and adhesion (2000)
    Hilary A. Coller, Carla Grandori et al. Proceedings of the National Academy of Sciences
  10. Mad: A heterodimeric partner for Max that antagonizes Myc transcriptional activity (1993)
    Donald E. Ayer, Leo Kretzner et al. Cell
  11. Drosophila myc Regulates Cellular Growth during Development (1999)
    Laura A. Johnston, David A. Prober et al. Cell
  12. Mad-max transcriptional repression is mediated by ternary complex formation with mammalian homologs of yeast repressor Sin3 (1995)
    Donald E. Ayer, Robert N. Eisenman et al. Cell
  13. c-Myc binds to human ribosomal DNA and stimulates transcription of rRNA genes by RNA polymerase I (2005)
    Carla Grandori, Natividad Gomez-Roman et al. Nature Cell Biology
  14. Chromatin structure of endogenous retroviral genes and activation by an inhibitor of DNA methylation (1981)
    Mark Groudine, Robert N. Eisenman et al. Nature
  15. Myb DNA binding inhibited by phosphorylation at a site deleted during oncogenic activation (1990)
    Bernhard Lüscher, Erik Christenson et al. Nature

Immediate Impact

36 by Nobel laureates 79 from Science/Nature 162 standout
Sub-graph 1 of 16

Citing Papers

Hallmarks of Cancer: The Next Generation
2011 Standout
Promotion of direct reprogramming by transformation-deficient Myc
2010 StandoutNobel
13 intermediate papers

Works of Robert N. Eisenman being referenced

Binding of Myc Proteins to Canonical and Noncanonical DNA Sequences
1993
Max: A Helix-Loop-Helix Zipper Protein That Forms a Sequence-Specific DNA-Binding Complex with Myc
1991 StandoutScience
and 27 more

Author Peers

Author Last Decade Papers Cites
Robert N. Eisenman 25028 5051 5821 202 30.4k
Kristian Helin 30940 4602 8998 272 36.5k
Thomas M. Roberts 19460 3322 7514 305 28.5k
Rolf Müller 15461 3045 4768 290 22.2k
Jonathan A. Cooper 22273 3426 4614 237 32.1k
Peter Herrlich 20519 7349 6290 259 32.3k
Woodring E. Wright 28159 4036 4898 291 42.8k
Roel Nusse 43096 7953 7708 206 54.4k
Hartmut Beug 15981 4181 7340 252 25.1k
Shelley L. Berger 26325 4515 4439 232 35.1k
Anthony Wynshaw‐Boris 18592 5836 4038 203 27.6k

All Works

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