Modifiers of Terminal Deficiency-Associated Position Effect Variegation in Drosophila

Abstract Terminal deletions of a Drosophila minichromosome (Dp(1;f)1187) dramatically increase the position effect variegation (PEV) of a yellow+ body-color gene located in cis. Such terminal deficiency-associated PEV (TDA-PEV) can be suppressed by the presence of a second minichromosome, a phenomenon termed “trans-suppression.” We performed a screen for mutations that modify TDA-PEV and trans-suppression. Seventy suppressors and enhancers of TDA-PEV were identified, but no modifiers of trans-suppression were recovered. Secondary analyses of the effects of these mutations on different PEV types identified 10 mutations that modify only TDA-PEV and 6 mutations that modify TDA-PEV and only one other type of PEV. One mutation, a new allele of Su(var)3-9, affects all forms of PEV, including silencing associated with the insertion of a transgene into telomeric regions (TPE). This Su(var)3-9 allele is the first modifier of PEV to affect TPE and provides a unique link between different types of gene silencing in Drosophila. The remaining mutations affected multiple PEV types, indicating that general PEV modifiers impact TDA-PEV. Modifiers of TDA-PEV may identify proteins that play important roles in general heterochromatin biology, including proteins involved in telomere structure and function and the organization of chromosomes in the interphase nucleus.

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Interactions Among Dosage-Dependent Trans-Acting Modifiers of Gene Expression and Position-Effect Variegation in Drosophila

Genetics ◽

10.1093/genetics/150.1.251 ◽

1998 ◽

Vol 150 (1) ◽

pp. 251-263 ◽

Cited By ~ 3

Author(s):

Utpal Bhadra ◽

Manika Pal Bhadra ◽

James A Birchler

Keyword(s):

Gene Expression ◽

Quantitative Traits ◽

Position Effect ◽

Position Effect Variegation ◽

Developmental Transitions ◽

Eye Color ◽

Dosage Effects ◽

Effect Variegation ◽

Hierarchical Manner ◽

Color Gene

Abstract We have investigated the effect of dosage-dependent trans-acting regulators of the white eye color gene in combinations to understand their interaction properties. The consequences of the interactions will aid in an understanding of aneuploid syndromes, position-effect variegation (PEV), quantitative traits, and dosage compensation, all of which are affected by dosage-dependent modifiers. Various combinations modulate two functionally related transcripts, white and scarlet, differently. The overall trend is that multiple modifiers are noncumulative or epistatic to each other. In some combinations, developmental transitions from larvae to pupae to adults act as a switch for whether the effect is positive or negative. With position-effect variegation, similar responses were found as with gene expression. The highly multigenic nature of dosage-sensitive modulation of both gene expression and PEV suggests that dosage effects can be progressively transduced through a series of steps in a hierarchical manner.

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Cis-effects of heterochromatin on heterochromatic and euchromatic gene activity in Drosophila melanogaster.

Genetics ◽

10.1093/genetics/140.3.1033 ◽

1995 ◽

Vol 140 (3) ◽

pp. 1033-1045

Author(s):

M Howe ◽

P Dimitri ◽

M Berloco ◽

B T Wakimoto

Keyword(s):

Chromosomal Rearrangements ◽

Position Effect ◽

Position Effect Variegation ◽

Regulatory Requirements ◽

Molecular Studies ◽

Effect Variegation ◽

Novel Method ◽

In Cis ◽

Derivatives Of ◽

Heterochromatic Genes

Abstract Chromosomal rearrangements that juxtapose heterochromatin and euchromatin can result in mosaic inactivation of heterochromatic and euchromatic genes. This phenomenon, position effect variegation (PEV), suggests that heterochromatic and euchromatic genes differ in their regulatory requirements. This report describes a novel method for mapping regions required for heterochromatic genes, and those that induce PEV of a euchromatic gene. P transposase mutagenesis was used to generate derivatives of a translocation that variegated for the light+ (lt+) gene and carried the euchromatic white+ (w+) gene on a transposon near the heterochromatin-euchromatin junction. Cytogenetic and genetic analyses of the derivatives showed that P mutagenesis resulted in deletions of several megabases of heterochromatin. Genetic and molecular studies showed that the derivatives shared a euchromatic breakpoint but differed in their heterochromatic breakpoint and their effects on seven heterochromatic genes and the w+ gene. Heterochromatic genes differed in their response to deletions. The lt+ gene was sensitive to the amount of heterochromatin at the breakpoint but the heterochromatic 40Fa gene was not. The severity of variegated w+ phenotype did not depend on the amount of heterochromatin in cis, but varied with local heterochromatic environment. These data are relevant for considering mechanisms of PEV of both heterochromatic and euchromatic genes.

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Weakener of white (Wow), a gene that modifies the expression of the white eye color locus and that suppresses position effect variegation in Drosophila melanogaster.

Genetics ◽

10.1093/genetics/137.4.1057 ◽

1994 ◽

Vol 137 (4) ◽

pp. 1057-1070 ◽

Cited By ~ 1

Author(s):

J A Birchler ◽

U Bhadra ◽

L Rabinow ◽

R Linsk ◽

A T Nguyen-Huynh

Keyword(s):

Gene Expression ◽

Drosophila Melanogaster ◽

Position Effect ◽

Northern Analysis ◽

Regulatory Sequences ◽

Position Effect Variegation ◽

Eye Color ◽

Effect Variegation ◽

Modifying Effect ◽

Color Gene

Abstract A locus is described in Drosophila melanogaster that modifies the expression of the white eye color gene. This trans-acting modifier reduces the expression of the white gene in the eye, but elevates the expression in other adult tissues. Because of the eye phenotype in which the expression of white is lessened but not eliminated, the newly described locus is called the Weakener of white (Wow). Northern analysis reveals that Wow can exert an inverse or direct modifying effect depending upon the developmental stage. Two related genes, brown and scarlet, that are coordinately expressed with white, are also affected by Wow. In addition, Wow modulates the steady state RNA level of the retrotransposon, copia. When tested with a white promoter-Alcohol dehydrogenase reporter. Wow confers the modifying effect to the reporter, suggesting a requirement of the white regulatory sequences for mediating the response. In addition to being a dosage sensitive regulator of white, brown, scarlet and copia, Wow acts as a suppressor of position effect variegation. There are many dosage sensitive suppressors of position effect variegation and many dosage-sensitive modifiers of gene expression. The Wow mutations provide evidence for an overlap between the two types of modifiers.

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Transcriptional enhancers act in cis to suppress position-effect variegation.

Genes & Development ◽

10.1101/gad.10.2.185 ◽

1996 ◽

Vol 10 (2) ◽

pp. 185-195 ◽

Cited By ~ 112

Author(s):

M C Walters ◽

W Magis ◽

S Fiering ◽

J Eidemiller ◽

D Scalzo ◽

...

Keyword(s):

Position Effect ◽

Position Effect Variegation ◽

Transcriptional Enhancers ◽

Effect Variegation ◽

In Cis

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Mutational Analysis of a Histone Deacetylase in Drosophila melanogaster: Missense Mutations Suppress Gene Silencing Associated With Position Effect Variegation

Genetics ◽

10.1093/genetics/154.2.657 ◽

2000 ◽

Vol 154 (2) ◽

pp. 657-668 ◽

Cited By ~ 2

Author(s):

Randy Mottus ◽

Richard E Sobel ◽

Thomas A Grigliatti

Keyword(s):

Drosophila Melanogaster ◽

Histone Deacetylase ◽

Transcriptional Activity ◽

Mutational Analysis ◽

Position Effect ◽

Transcriptional Regulator ◽

Position Effect Variegation ◽

Missense Mutations ◽

Effect Variegation ◽

New Mutations

Abstract For many years it has been noted that there is a correlation between acetylation of histones and an increase in transcriptional activity. One prediction, based on this correlation, is that hypomorphic or null mutations in histone deacetylase genes should lead to increased levels of histone acetylation and result in increased levels of transcription. It was therefore surprising when it was reported, in both yeast and fruit flies, that mutations that reduced or eliminated a histone deacetylase resulted in transcriptional silencing of genes subject to telomeric and heterochromatic position effect variegation (PEV). Here we report the first mutational analysis of a histone deacetylase in a multicellular eukaryote by examining six new mutations in HDAC1 of Drosophila melanogaster. We observed a suite of phenotypes accompanying the mutations consistent with the notion that HDAC1 acts as a global transcriptional regulator. However, in contrast to recent findings, here we report that specific missense mutations in the structural gene of HDAC1 suppress the silencing of genes subject to PEV. We propose that the missense mutations reported here are acting as antimorphic mutations that “poison” the deacetylase complex and propose a model that accounts for the various phenotypes associated with lesions in the deacetylase locus.

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pitkinD, a Novel Gain-of-Function Enhancer of Position-Effect Variegation, Affects Chromatin Regulation During Oogenesis and Early Embryogenesis in Drosophila

Genetics ◽

10.1093/genetics/157.3.1227 ◽

2001 ◽

Vol 157 (3) ◽

pp. 1227-1244 ◽

Cited By ~ 1

Author(s):

Steffi Kuhfittig ◽

János Szabad ◽

Gunnar Schotta ◽

Jan Hoffmann ◽

Endre Máthé ◽

...

Keyword(s):

Germ Line ◽

Position Effect ◽

Early Embryogenesis ◽

Position Effect Variegation ◽

Chromatin Regulation ◽

Gain Of Function ◽

Position Effects ◽

Dominant Female ◽

Effect Variegation ◽

Female Germ Line

Abstract The vast majority of the >100 modifier genes of position-effect variegation (PEV) in Drosophila have been identified genetically as haplo-insufficient loci. Here, we describe pitkinDominant (ptnD), a gain-of-function enhancer mutation of PEV. Its exceptionally strong enhancer effect is evident as elevated spreading of heterochromatin-induced gene silencing along euchromatic regions in variegating rearrangements. The ptnD mutation causes ectopic binding of the SU(VAR)3-9 heterochromatin protein at many euchromatic sites and, unlike other modifiers of PEV, it also affects stable position effects. Specifically, it induces silencing of white+ transgenes inserted at a wide variety of euchromatic sites. ptnD is associated with dominant female sterility. +/+ embryos produced by ptnD/+ females mated with wild-type males die at the end of embryogenesis, whereas the ptnD/+ sibling embryos arrest development at cleavage cycle 1-3, due to a combined effect of maternally provided mutant product and an early zygotic lethal effect of ptnD. This is the earliest zygotic effect of a mutation so far reported in Drosophila. Germ-line mosaics show that ptn+ function is required for normal development in the female germ line. These results, together with effects on PEV and white+ transgenes, are consistent with the hypothesis that the ptn gene plays an important role in chromatin regulation during development of the female germ line and in early embryogenesis.

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Recombinogenic Effects of Suppressors of Position-Effect Variegation in Drosophila

Genetics ◽

10.1093/genetics/160.2.609 ◽

2002 ◽

Vol 160 (2) ◽

pp. 609-621

Author(s):

Thomas Westphal ◽

Gunter Reuter

Keyword(s):

Chromatin Structure ◽

Position Effect ◽

Heterochromatic Region ◽

Crossing Over ◽

Position Effect Variegation ◽

Chromosome 2 ◽

Additive Effects ◽

Suppressor Mutations ◽

Effect Variegation ◽

Meiotic Nondisjunction

Abstract Compact chromatin structure, induction of gene silencing in position-effect variegation (PEV), and crossing-over suppression are typical features of heterochromatin. To identify genes affecting crossing-over suppression by heterochromatin we tested PEV suppressor mutations for their effects on crossing over in pericentromeric regions of Drosophila autosomes. From the 46 mutations (28 loci) studied, 16 Su(var) mutations of the nine genes Su(var)2-1, Su(var)2-2, Su(var)2-5, Su(var)2-10, Su(var)2-14, Su(var) 2-15, Su(var)3-3, Su(var)3-7, and Su(var)3-9 significantly increase in heterozygotes or by additive effects in double and triple heterozygotes crossing over in the ri-pp region of chromosome 3. Su(var)2-201 and Su(var) 2-1401 display the strongest recombinogenic effects and were also shown to enhance recombination within the light-rolled heterochromatic region of chromosome 2. The dominant recombinogenic effects of Su(var) mutations are most pronounced in proximal euchromatin and are accompanied with significant reduction of meiotic nondisjunction. Our data suggest that crossing-over suppression by heterochromatin is controlled at chromatin structure as well as illustrate the possible effects of heterochromatin on total crossing-over frequencies in the genome.

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Enhancer of Polycomb Is a Suppressor of Position-Effect Variegation in Drosophila melanogaster

Genetics ◽

10.1093/genetics/148.1.211 ◽

1998 ◽

Vol 148 (1) ◽

pp. 211-220

Author(s):

Donald A R Sinclair ◽

Nigel J Clegg ◽

Jennifer Antonchuk ◽

Thomas A Milne ◽

Kryn Stankunas ◽

...

Keyword(s):

Sequence Similarity ◽

Position Effect ◽

Polycomb Group ◽

P Element ◽

Homeotic Gene ◽

Position Effect Variegation ◽

Negative Regulators ◽

Recombination Mapping ◽

Effect Variegation ◽

Homeotic Gene Expression

Abstract Polycomb group (PcG) genes of Drosophila are negative regulators of homeotic gene expression required for maintenance of determination. Sequence similarity between Polycomb and Su(var)205 led to the suggestion that PcG genes and modifiers of position-effect variegation (PEV) might function analogously in the establishment of chromatin structure. If PcG proteins participate directly in the same process that leads to PEV, PcG mutations should suppress PEV. We show that mutations in E(Pc), an unusual member of the PcG, suppress PEV of four variegating rearrangements: In(l)wm4, BSV, T(2;3)SbV, and In(2R)bwVDe2. Using reversion of a P element insertion, deficiency mapping, and recombination mapping as criteria, homeotic effects and suppression of PEV associated with E(Pc) co-map. Asx is an enhancer of PEV, whereas nine other PcG loci do not affect PEV. These results support the conclusion that there are fewer similarities between PcG genes and modifiers of PEV than previously supposed. However, E(Pc) appears to be an important link between the two groups. We discuss why Asx might act as an enhancer of PEV.

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Competition Between Different Variegating Rearrangements for Limited Heterochromatic Factors in Drosophila melanogaster

Genetics ◽

10.1093/genetics/145.4.945 ◽

1997 ◽

Vol 145 (4) ◽

pp. 945-959

Author(s):

Vett K Lloyd ◽

Donald A Sinclair ◽

Thomas A Grigliatti

Keyword(s):

Drosophila Melanogaster ◽

Chromosome Rearrangement ◽

Position Effect ◽

Position Effect Variegation ◽

Euchromatic Region ◽

Single Chromosome ◽

Mosaic Expression ◽

Effect Variegation ◽

Protein Components

Position effect variegation (PEV) results from the juxtaposition of a euchromatic gene to heterochromatin. In its new position the gene is inactivated in some cells and not in others. This mosaic expression is consistent with variability in the spread of heterochromatin from cell to cell. As many components of heterochromatin are likely to be produced in limited amounts, the spread of heterochromatin into a normally euchromatic region should be accompanied by a concomitant loss or redistribution of the protein components from other heterochromatic regions. We have shown that this is the case by simultaneously monitoring variegation of a euchromatic and a heterochromatic gene associated with a single chromosome rearrangement. Secondly, if several heterochromatic regions of the genome share limited components of heterochromatin, then some variegating rearrangements should compete for these components. We have examined this hypothesis by testing flies with combinations of two or more different variegating rearrangements. Of the nine combinations of pairs of variegating rearrangements we studied, seven showed nonreciprocal interactions. These results imply that many components of heterochromatin are both shared and present in limited amounts and that they can transfer between chromosomal sites. Consequently, even nonvariegation portions of the genome will be disrupted by re-allocation of heterochromatic proteins associated with PEV. These results have implications for models of PEV.

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Mutation in P0, a Dual Function Ribosomal Protein/Apurinic/Apyrimidinic Endonuclease, Modifies Gene Expression and Position Effect Variegation in Drosophila

Genetics ◽

10.1093/genetics/150.4.1487 ◽

1998 ◽

Vol 150 (4) ◽

pp. 1487-1495

Author(s):

Maxim V Frolov ◽

James A Birchler

Keyword(s):

Gene Expression ◽

Ribosomal Protein ◽

Position Effect ◽

P Element ◽

Dual Function ◽

Insertion Mutant ◽

Position Effect Variegation ◽

Element Insertion ◽

Effect Variegation ◽

Ribosomal Protein P0

Abstract In a search for modifiers of gene expression with the white eye color gene as a target, a third chromosomal P-element insertion mutant l(3)01544 has been identified that exhibits a strong pigment increase in a white-apricot background. Molecular analysis shows that the P-element insertion is found in the first intron of the gene surrounding the insertion site. Sequencing both the cDNA and genomic fragments revealed that the identified gene is identical to one encoding ribosomal protein P0/apurinic/apyrimidinic endonuclease. The P-element-induced mutation, l(3)01544, affects the steady-state level of white transcripts and transcripts of some other genes. In addition, l(3)01544 suppresses the variegated phenotypes of In(1)wm4h and In(1)y3P, suggesting a potential involvement of the P0 protein in modifying position effect variegation. The revertant generated by the precise excision of the P element has lost all mutant phenotypes. Recent work revealed that Drosophila ribosomal protein P0 contains an apurinic/apyrimidinic endonuclease activity. Our results suggest that this multifunctional protein is also involved in regulation of gene expression in Drosophila.

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