Marion Delattre scite author profile

SU(VAR)3-7, a Drosophila heterochromatinassociated protein and companion of HP1 in the genomic silencing of position-effect variegation of homeotic gene complexes (i.e. Paro and Hogness, 1991; Fabienne Clé ard, Marion Delattre and Dorn et al., 1993; Fauvarque and Dura, 1993; Farkas Pierre Spierer 1 Tschiersch et al., 1994).Department of Zoology and Animal Biology, University of Geneva,The genetic modifiers of PEV could identify components 30 quai Ernest-Ansermet, CH-1211 Geneva 4, Switzerland of the mechanisms of genomic silencing (Eissenberg, 1989;Reuter and Spierer, 1992). In Drosophila melanogas-1 Corresponding author ter, haplo-suppressor loci with a triplo-enhancer effect on PEV are candidates for being structural components of An increase in the dose of the Su(var)3-7 locus of the heterochromatin conformation that spreads silencing Drosophila melanogaster enhances the genomic silencon euchromatic genes. Among these, we have cloned the ing of position-effect variegation caused by centromeric modifier locus Su(var)3-7, and shown that an increase in heterochromatin. Here we show that the product of its dose enhances PEV ; Cléard et al., Su(var)3-7 is a nuclear protein which associates 1995). The deduced protein sequence predicts that it with pericentromeric heterochromatin at interphase, encodes a large protein with seven widely separated zinc whether on diploid chromosomes from embryonic fingers. Another candidate, HP1, initially isolated as a nuclei or on polytene chromosomes from larval salivary heterochromatin-associated protein (James and Elgin, glands. The protein also associates with the partially 1986), later was found to be encoded by the haploheterochromatic chromosome 4. As these phenotypes suppressor triplo-enhancer of PEV Su(var)2-5 (Eissenberg and localizations resemble those described by others for et al., 1990, 1992). In polytene chromosomes, HP1 was the Su(var)2-5 locus and its heterochromatin-associated found to associate with centromeric heterochromatin and protein HP1, the presumed co-operation of the two chromosome 4, and to a lesser extent with a subset of proteins was tested further. The effect of the dose of telomeres and a few euchromatic bands (James et al., Su(var)3-7 on silencing of a number of variegating 1989). In embryonic nuclei, HP1 co-localizes with centrorearrangements and insertions is strikingly similar to meric heterochromatin in interphase chromosomes the effect of the dose of Su(var)2-5 reported by others. (Kellum et al., 1995). The involvement of HP1 in the In addition, the two loci interact genetically, and genomic silencing of PEV is also supported cytologically the two proteins co-immunoprecipitate from nuclear by its association with euchromatic loci inactivated by extracts. The results suggest that SU(VAR)3-7 and HP1PEV (Belyaeva et al., 1993). co-operate in building the genomic silencing associated It has been proposed that the heterochromatic conformwith heterochromatin.ation spreads silence by co-operative assembly of a variety Keywords: Drosophila/genom...

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Loss of the modifiers of variegation Su(var)3-7 or HP1 impacts male X polytene chromosome morphology and dosage compensation

Spierer

Seum

Delattre

et al. 2005

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Loss of Su(var)3-7 or HP1 suppresses the genomic silencing of position-effect variegation, whereas over-expression enhances it. In addition, loss of Su(var)3-7 results in preferential male lethality. In polytene chromosomes deprived of Su(var)3-7, we observe a specific bloating of the male X chromosome, leading to shortening of the chromosome and to blurring of its banding pattern. In addition, the chromocenter, where heterochromatin from all polytene chromosomes fuses, appears decondensed. The same chromosomal phenotypes are observed as a result of loss of HP1. Mutations of Su(var)3-7 or of Su(var)2-5, the gene encoding HP1, also cause developmental defects, including a spectacular increase in size of the prothoracic gland and its polytene chromosomes. Thus, although structurally very different, the two proteins cooperate closely in chromosome organization and development. Finally, bloating of the male X chromosome in the Su(var)37 mutant depends on the presence of a functional dosage compensation complex on this chromosome. This observation reveals a new and intriguing genetic interaction between epigenetic silencing and compensation of dose

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Drosophila G9a Is a Nonessential Gene

Seum

Bontron

Reo

et al. 2007

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Increased expression ofDrosophilaSu(var)3-7 triggers Su(var)3-9-dependent heterochromatin formation

Delattre

Spierer

Jaquet

et al. 2004

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The Su(var)3-7 protein is essential for fly viability, and several lines of evidence support its key importance in heterochromatin formation: it binds to pericentric heterochromatin, it potently suppresses variegation and it interacts with HP1. However, the mode of action of Su(var)3-7 is poorly understood. Here we investigate in vivo the consequences of increased Su(var)3-7 expression on fly viability and chromatin structure. A large excess of Su(var)3-7 induces lethality, whereas lower doses permit survival and cause spectacular changes in the morphology of polytene chromosomes in males, and to a lesser extent in females. The male X is always the most affected chromosome: it becomes highly condensed and shortened, and its characteristic banding pattern is modified. In addition, Su(var)3-7 was found over the complete length of all chromosomes. This event coincides with the appearance of heterochromatin markers such as histone H3K9 dimethylation and HP1 at many sites on autosomes and, more strikingly, on the male X chromosome. These two features are strictly dependent on the histone-methyltransferase Su(var)3-9, whereas the generalised localisation of Su(var)3-7 is not. These data provide evidence for a dose-dependent regulatory role of Su(var)37 in chromosome morphology and heterochromatin formation. Moreover they show that Su(var)3-7 expression is sufficient to induce Su(var)3-9-dependent ectopic heterochromatinisation and suggest a functional link between Su(var)3-7 and the histone-methyltransferase Su(var)3-9

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JIL-1 and Su(var)3-7 Interact Genetically and Counteract Each Other's Effect on Position-Effect Variegation in Drosophila

Huai

Cai

Wang

et al. 2010

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The essential JIL-1 histone H3S10 kinase is a key regulator of chromatin structure that functions to maintain euchromatic domains while counteracting heterochromatization and gene silencing. In the absence of the JIL-1 kinase, two of the major heterochromatin markers H3K9me2 and HP1a spread in tandem to ectopic locations on the chromosome arms. Here we address the role of the third major heterochromatin component, the zinc-finger protein Su(var)3-7. We show that the lethality but not the chromosome morphology defects associated with the null JIL-1 phenotype to a large degree can be rescued by reducing the dose of the Su(var)3-7 gene and that Su(var)3-7 and JIL-1 loss-of-function mutations have an antagonistic and counterbalancing effect on position-effect variegation (PEV). Furthermore, we show that in the absence of JIL-1 kinase activity, Su(var)3-7 gets redistributed and upregulated on the chromosome arms. Reducing the dose of the Su(var)3-7 gene dramatically decreases this redistribution; however, the spreading of H3K9me2 to the chromosome arms was unaffected, strongly indicating that ectopic Su(var)3-9 activity is not a direct cause of lethality. These observations suggest a model where Su(var)3-7 functions as an effector downstream of Su(var)3-9 and H3K9 dimethylation in heterochromatic spreading and gene silencing that is normally counteracted by JIL-1 kinase activity.

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Marion Delattre

SU(VAR)3-7, a Drosophila heterochromatin-associated protein and companion of HP1 in the genomic silencing of position-effect variegation

Loss of the modifiers of variegation Su(var)3-7 or HP1 impacts male X polytene chromosome morphology and dosage compensation

Drosophila G9a Is a Nonessential Gene

Increased expression ofDrosophilaSu(var)3-7 triggers Su(var)3-9-dependent heterochromatin formation

JIL-1 and Su(var)3-7 Interact Genetically and Counteract Each Other's Effect on Position-Effect Variegation in Drosophila

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