Genetic and Molecular Complexity of the Position Effect Variegation Modifier mod(mdg4) in Drosophila

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Genetic and Molecular Complexity of the Position Effect Variegation Modifier mod(mdg4) in Drosophila

Kerstin Büchner^a, Peggy Roth^a, Gunnar Schotta^a, Veiko Krauss^a, Harald Saumweber^b, Gunter Reuter^a, and Rainer Dorn^a
^a Institute of Genetics, Martin-Luther University of Halle, D-06108 Halle, Germany
^b Department of Cytogenetics, Humboldt University Berlin, D-10115 Berlin, Germany

Corresponding author: Rainer Dorn, Institute of Genetics, Martin-Luther University of Halle, Domplatz 1, D-06108 Halle, Germany., dorn{at}genetik.uni-halle.de (E-mail)

Communicating editor: T. C. KAUFMAN

mod(mdg4), also known as E(var)3-93D, is involved in a varietyof processes, such as gene silencing in position effect variegation(PEV), the control of gypsy insulator sequences, regulationof homeotic gene expression, and programmed cell death. We haveisolated a large number of mod(mdg4) cDNAs, representing 21different isoforms generated by alternative splicing. The deducedproteins are characterized by a common N terminus of 402 aminoacids, including the BTB/POZ-domain. Most of the variable Ctermini contain a new consensus sequence, including four positionedhydrophobic amino acids and a Cys₂His₂ motif. Using specificantibodies for two protein isoforms, we demonstrate differentdistributions of the corresponding proteins on polytene chromosomes.Mutations in the genomic region encoding exons 1–4 showenhancement of PEV and homeotic transformation and affect viabilityand fertility. Homeotic and PEV phenotypes are enhanced by mutationsin other trx-group genes. A transgene containing the common5' region of mod(mdg4) that is present in all splice variantsknown so far partially rescues the recessive lethality of mod(mdg4)mutant alleles. Our data provide evidence that the molecularand genetic complexity of mod(mdg4) is caused by a large setof individual protein isoforms with specific functions in regulatingthe chromatin structure of different sets of genes throughoutdevelopment.

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				W. Wei and M. D. Brennan The gypsy Insulator Can Act as a Promoter-Specific Transcriptional Stimulator Mol. Cell. Biol., November 15, 2001; 21(22): 7714 - 7720. [Abstract] [Full Text] [PDF]

				R. Dorn, G. Reuter, and A. Loewendorf Transgene analysis proves mRNA trans-splicing at the complex mod(mdg4) locus in Drosophila PNAS, August 1, 2001; (2001) 151268698. [Abstract] [Full Text] [PDF]

				M. Gause, P. Morcillo, and D. Dorsett Insulation of Enhancer-Promoter Communication by a Gypsy Transposon Insert in the Drosophila cut Gene: Cooperation between Suppressor of Hairy-wing and Modifier of mdg4 Proteins Mol. Cell. Biol., July 15, 2001; 21(14): 4807 - 4817. [Abstract] [Full Text] [PDF]

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				A. C. Bell, A. G. West, and G. Felsenfeld Insulators and Boundaries: Versatile Regulatory Elements in the Eukaryotic Genome Science, January 19, 2001; 291(5503): 447 - 450. [Abstract] [Full Text]

				D. Read, M. J. Butte, A. F. Dernburg, M. Frasch, and T. B. Kornberg Functional studies of the BTB domain in the Drosophila GAGA and Mod(mdg4) proteins Nucleic Acids Res., October 15, 2000; 28(20): 3864 - 3870. [Abstract] [Full Text] [PDF]