Genomic profiling and expression studies reveal both positive and negative activities for the Drosophila Myb–MuvB/dREAM complex in proliferating cells (original) (raw)

  1. Daphne Georlette1,
  2. Soyeon Ahn2,
  3. David M. MacAlpine3,5,
  4. Evelyn Cheung4,
  5. Peter W. Lewis1,
  6. Eileen L. Beall1,
  7. Stephen P. Bell3,
  8. Terry Speed2,
  9. J. Robert Manak4, and
  10. Michael R. Botchan1,6
  11. 1 Department of Molecular and Cell Biology, University of California Berkeley, Berkeley, California 94720, USA;
  12. 2 Department of Statistics, University of California Berkeley, Berkeley, California 94720, USA;
  13. 3 Department of Biology, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139, USA;
  14. 4 Affymetrix, Inc., Affy Laboratories-Transcriptome, Santa Clara, California 95051, USA

Abstract

Myb–MuvB (MMB)/dREAM is a nine-subunit complex first described in Drosophila as a repressor of transcription, dependent on E2F2 and the RBFs. Myb, an integral member of MMB, curiously plays no role in the silencing of the test genes previously analyzed. Moreover, Myb plays an activating role in DNA replication in Drosophila egg chamber follicle cells. The essential functions for Myb are executed as part of MMB. This duality of function lead to the hypothesis that MMB, which contains both known activator and repressor proteins, might function as part of a switching mechanism that is dependent on DNA sites and developmental context. Here, we used proliferating Drosophila Kc tissue culture cells to explore both the network of genes regulated by MMB (employing RNA interference and microarray expression analysis) and the genomic locations of MMB following chromatin immunoprecipitation (ChIP) and tiling array analysis. MMB occupied 3538 chromosomal sites and was promoter-proximal to 32% of Drosophila genes. MMB contains multiple DNA-binding factors, and the data highlighted the combinatorial way by which the complex was targeted and utilized for regulation. Interestingly, only a subset of chromatin-bound complexes repressed genes normally expressed in a wide range of developmental pathways. At many of these sites, E2F2 was critical for repression, whereas at other nonoverlapping sites, Myb was critical for repression. We also found sites where MMB was a positive regulator of transcript levels that included genes required for mitotic functions (G2/M), which may explain some of the chromosome instability phenotypes attributed to loss of Myb function in myb mutants.

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