The Trithorax-mimic Allele of Enhancer of zeste Renders Active Domains of Target Genes Accessible to Polycomb-Group-Dependent Silencing in Drosophila melanogaster

The Trithorax-mimic Allele of Enhancer of zeste Renders Active Domains of Target Genes Accessible to Polycomb-Group-Dependent Silencing in Drosophila melanogaster

Izabella Bajusz^a, László Sipos^a, Zoltán Györgypál^a, Elizabeth A. Carrington^b, Richard S. Jones^b, János Gausz^a, and Henrik Gyurkovics^a
^a Institute of Genetics, Biological Research Center, H-6701 Szeged, Hungary
^b Department of Biological Sciences, Southern Methodist University, Dallas, Texas 75275-0376

Corresponding author: Henrik Gyurkovics, Biological Research Ctr., Institute of Genetics, Hungarian Academy of Sciences, Temesvári krt. 62. P.O. Box 521, H-6701 Szeged, Hungary., henrik{at}nucleus.szbk.u-szeged.hu (E-mail)

Communicating editor: T. C. KAUFMAN

Two antagonistic groups of genes, the trithorax- and the Polycomb-group,are proposed to maintain the appropriate active or inactivestate of homeotic genes set up earlier by transiently expressedsegmentation genes. Although some details about the mechanismof maintenance are available, it is still unclear how the initiallyactive or inactive chromatin domains are recognized by eitherthe trithorax-group or the Polycomb-group proteins. We describean unusual dominant allele of a Polycomb-group gene, Enhancerof zeste, which mimics the phenotype of loss-of-function mutationsin trithorax-group genes. This mutation, named E(z)^{Trithoraxmimic} [E(z)^Trm], contains a single-amino-acid substitution inthe conserved SET domain. The strong dominant trithorax-likephenotypes elicited by this E(z) allele suggest that the mutatedarginine-741 plays a critical role in distinguishing betweenactive and inactive chromatin domains of the homeotic gene complexes.We have examined the modification of E(z)^Trm phenotypes by mutantalleles of PcG and trxG genes and other mutations that alterthe phosphorylation of nuclear proteins, covalent modificationsof histones, or histone dosage. These data implicate some trxGgenes in transcriptional repression as well as activation andprovide genetic evidence for involvement of histone modificationsin PcG/trxG-dependent transcriptional regulation.

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