Ectopic expression of the<Emphasis Type="Italic"> Suppressor of Underreplication</Emphasis> gene inhibits endocycles but not the mitotic cell cycle in<Emphasis Type="Italic"> Drosophila melanogaster</Emphasis>

The Suppressor of Underreplication ( SuUR) gene contributes to the regulation of DNA replication in regions of intercalary heterochromatin in salivary gland polytene chromosomes. In the SuUR mutant these regions complete replication earlier than in wild type and, as a consequence, undergo full polytenization. Here we describe the effects of ectopic expression of SuUR using the GAL4-UAS system. We demonstrate that ectopically expressed SuUR exerts qualitatively distinct influences on polyploid and diploid tissues. Ectopic expression of SuUR inhibits DNA replication in polytene salivary gland nuclei, and reduces the degree of amplification of chorion protein genes that occurs in the follicle cell lineage. Effects caused by ectopic SuUR in diploid tissues vary considerably; there is no obvious effect on eye formation, but apoptosis is observed in the wing disc, and wing shape is distorted. The effect of ectopic SuUR expression is enhanced by mutations in the genes E2F and mus209 ( PCNA). Differential responses of polyploid and diploid cells to ectopic SuUR may reflect differences in the mechanisms underlying mitotic cell cycles and endocycles.Communicated by G. P. Georgiev     

Effect of the Suppressor of Underreplication (SuUR) gene on position-effect variegation silencing in Drosophila melanogaster

It has been previously shown that the SuUR gene encodes a protein located in intercalary and pericentromeric heterochromatin in Drosophila melanogaster polytene chromosomes. The SuUR mutation suppresses the formation of ectopic contacts and DNA underreplication in polytene chromosomes; SuUR+ in extra doses enhances the expression of these characters. This study demonstrates that heterochromatin-dependent PEV silencing is also influenced by SuUR. The SuUR protein localizes to chromosome regions compacted as a result of PEV; the SuUR mutation suppresses DNA underreplication arising in regions of polytene chromosomes undergoing PEV. The SuUR mutation also suppresses variegation of both adult morphological characters and chromatin compaction observed in rearranged chromosomes. In contrast, SuUR+ in extra doses and its overexpression enhance variegation. Thus, SuUR affects PEV silencing in a dose-dependent manner. However, its effect is expressed weaker than that of the strong modifier Su(var)2-5.     

Influence of the SuUR gene on intercalary heterochromatin in Drosophila melanogaster polytene chromosomes

Salivary gland polytene chromosomes of Drosophila melanogaster have a reproducible set of intercalary heterochromatin (IH) sites, characterized by late DNA replication, underreplicated DNA, breaks and frequent ectopic contacts. The SuUR mutation has been shown to suppress underreplication, and wild-type SuUR protein is found at late-replicating IH sites and in pericentric heterochromatin. Here we show that the SuUR gene influences all four IH features. The SuUR mutation leads to earlier completion of DNA replication. Using transgenic strains with two, four or six additional SuUR(+) doses (4-8xSuUR(+)) we show that wild-type SuUR is an enhancer of DNA underreplication, causing many late-replicating sites to become underreplicated. We map the underreplication sites and show that their number increases from 58 in normal strains (2xSuUR(+)) to 161 in 4-8xSuUR(+) strains. In one of these new sites (1AB) DNA polytenization decreases from 100% in the wild type to 51%-85% in the 4xSuUR (+) strain. In the 4xSuUR(+) strain, 60% of the weak points coincide with the localization of Polycomb group (PcG) proteins. At the IH region 89E1-4 (the Bithorax complex), a typical underreplication site, the degree of underreplication increases with four doses of SuUR(+) but the extent of the underreplicated region is the same as in wild type and corresponds to the region containing PcG binding sites. We conclude that the polytene chromosome regions known as IH are binding sites for SuUR protein and in many cases PcG silencing proteins. We propose that these stable silenced regions are late replicated and, in the presence of SuUR protein, become underreplicated.     

Both Nucleolar Organizers Are Replicated in Dipteran Polyploid Tissues: A Study at the Level of Individual Nuclei

Working with the Dipteran Calliphora erythrocephala, we have tested the hypothesis that only one nucleolar organizer region (NO) is replicated during polyploidization. NO replication was examined in two very different highly polyploid nuclear types: salivary gland nuclei and nurse cell nuclei. Two strains of the organism containing NO regions with highly diagnostic nontranscribed spacer (NTS) polymorphisms were prepared and reciprocal single pair-matings between members of the strains were performed. The representation of the two distinguishable NOs in diploid and polyploid DNAs of individual F1 progeny from each cross was then examined. DNA from a total polyploid nuclear DNA preparation and from individual polyploid nuclei of both tissue types was analyzed. Our results show conclusively that both genomic NOs are replicated in individual polyploid nuclei of both types. Further, evidence for variation in the relative replication of cistrons from the two NOs by individual nuclei was obtained. The cistron types present in the NOs of both strains showed differential replication upon polyploidization. In general, the patterns of differential cistron replication seen in salivary gland and nurse cell nuclei were similar.     

Intercalary heterochromatin in Drosophila melanogaster polytene chromosomes and the problem of genetic silencing

The morphological characteristics of intercalary heterochromatin (IH) are compared with those of other types of silenced chromatin in the Drosophila melanogaster genome: pericentric heterochromatin (PH) and regions subject to position effect variegation (PEV). We conclude that IH regions in polytene chromosomes are binding sites of silencing complexes such as PcG complexes and of SuUR protein. Binding of these proteins results in the appearance of condensed chromatin and late replication of DNA, which in turn may result in DNA underreplication. IH and PH as well as regions subject to PEV have in common the condensed chromatin appearance, the localization of specific proteins, late replication, underreplication in polytene chromosomes, and ectopic pairing.     

Microdissection and sequence analysis of pericentric heterochromatin from the Drosophila melanogastermutant Suppressor of Underreplication

In the Suppressor of Underreplication( SuUR) mutant strain of Drosophila melanogaster, the heterochromatin of polytene chromosomes is not underreplicated and, as a consequence, a number of beta-heterochromatic regions acquire a banded structure. The chromocenter does not form in these polytene chromosomes, and heterochromatic regions, normally part of the chromocenter, become accessible to cytological analysis. We generated four genomic DNA libraries from specific heterochromatic regions by microdissection of polytene chromosomes. In situ hybridization of individual libraries onto SuUR polytene chromosomes shows that repetitive DNA sequences spread into the neighboring euchromatic regions. This observation allows the localization of eu-heterochromatin transition zones on polytene chromosomes. We find that genomic scaffolds from the eu-heterochromatin transition zones are enriched in repetitive DNA sequences homologous to those flanking the suppressor of forked gene [ su(f) repeat]. We isolated and sequenced about 300 clones from the heterochromatic DNA libraries obtained. Most of the clones contain repetitive DNA sequences; however, some of the clones have unique DNA sequences shared with parts of unmapped genomic scaffolds. Hybridization of these clones onto SuUR polytene chromosomes allowed us to assign the cytological localizations of the corresponding genomic scaffolds within heterochromatin. Our results demonstrate that the SuUR mutant renders possible the mapping of heterochromatic scaffolds on polytene chromosomes.     

Sequence replication and banding organization in the polytene chromosomes of Drosophila melanogaster

The relative proportions of cloned DNA fragments from all known hierarchies of sequence organization in polytene and diploid chromosomes were compared. It was found that unique sequences of varying sizes and chromosomal locations are equally replicated in salivary gland chromosomes. Sequences of euchromatic polydisperse gene families are also replicated proportionately in polytene and diploid tissues. Perhaps the most significant finding is that the histone gene repeats, despite their normal banding organization, are under-replicated in the polytene chromosome of Drosophila melanogaster. However, the clustered and well-banded 5S genes are most likely equally replicated. It is therefore concluded that differential sequence replication plays no apparent role in either the assembly or morphology of a band; and likewise, the assembly of polytenic DNA into band units is not affected by either the local abundancy or arrangement of middle repetitive sequences. The likelihood that the clustered arrangement is an important factor in the selection of sequences for under-replication is discussed.     

Number of the repetitive euchromatic 5S RNA genes in polyploid tissues of Drosophila hydei

Repetitive genes localized within heterochromatin, such as the rDNA in Drosophila, replicate several steps less than the bulk DNA during polytenization. The 5S RNA genes of Drosophila hydei were chosen as a model system to inquire whether underreplication also occurs if the repetitive gene cluster is localized in the euchromatin. Filter saturation hybridization showed that there are 320 5S RNA gene copies in the haploid genome. Setting the diploid number at 100%, it was found that the DNA of polytene salivary glands reached only 79% of this value, and the DNA of polyploid ovarian tissue reached only 72% of this value. Although the latter two saturation values are less than the diploid standard, they are not as low as the 50% saturation value predicted for a one-step reduction. This may reflect a slower replication of these genes compared to the bulk DNA. These results imply that underreplication is not a general characteristic of repetitive genes but depends on their localization in the euchromatic or heterochromatic part of the genome.     

Phylogenetic analysis of the rapidly evolving SuUR gene in insects

Different genome regions differ in replication timing during the S phase. Late-replicating sequences are often underreplicated in the Drosophila salivary-gland polytene chromosomes. The SuUR gene, whose mutation changes the replication time of late-replicating regions in salivary-gland cells, has been identified in Drosophila melanogaster. The SUUR protein lacks homologs by a BLAST search, and only moderate homology is observed between its N-terminal end and chromatin-remodeling proteins of the SWI2/SNF2 family. The gene and the protein were analyzed in insects. Orthologs of the SuUR gene were found in all annotated Drosophila species. The number of amino acid substitutions in the SUUR protein proved to be extremely high, corresponding to that of rapidly evolving genes. Orthologs with low homology were found in mosquitoes Anopheles gambiae, Aedes aegypti, and Culex quinquefasciatus. No orthologs of the SuUR gene were detected beyond Diptera.     

Unintegrated ribosomal genes in diploid and polytene tissues of Drosophila melanogaster

We have examined DNA from polytene salivary glands and diploid brains and imaginal discs of male and female larvae having one or two nucleolus organizers. DNA having an estimated molecular weight of 5×10⁹ or greater was obtained by sucrose gradient sedimentation of gently prepared lysates. Hybridization of the gradient fractions with ³H-ribosomal RNA reveals that 42% of the ribosomal genes are found in DNA of lower molecular weight (approximately 3×10⁸ daltons) in the salivary glands of every genotype examined. In the brains and imaginai discs, by contrast, all of the ribosomal genes are found in the high molecular weight peak except in females with one nucleolus organizer where 42% are found in lower molecular weight DNA, as in the salivary gland. Thus unintegrated genes are not an exclusive feature of polytene tissue, but can occur in diploid tissue as well in at least one genotype.     

Polytene chromosomes in mouse trophoblast giant cells

Mouse trophoblast giant cells undergo successive rounds of DNA replication resulting in amplification of the genome. It has been difficult to determine whether giant cell chromosomes are polyploid as in liver cells or polytene as in Dipteran salivary glands because the chromosomes do not condense. We have examined the pattern of hybridization of mouse giant cells with a variety of in situ chromosome markers to address this question. Hemizygous markers displayed one hybridization signal per nucleus in both diploid and giant cells, while homozygous markers displayed two signals per nucleus in both cell types. These patterns are consistent with cytological evidence indicating that giant cell chromosomes are polytene rather than polyploid. However, in contrast to the situation in Dipteran salivary glands, the two homologues do not appear to be closely associated. We conclude that the mechanism of giant cell DNA amplification involves multiple rounds of DNA replication in the absence of both karyokinesis and cytokinesis, and that sister chromatids, but not homologous chromosomes, remain closely associated during this process.     

Three euchromatic DNA sequences under-replicated in polytene chromosomes of Drosophila are localized in constrictions and ectopic fibers

We examined three regions of under-represented euchromatic DNA sequences (histone, Ubx, and 11 A), for their possible correlation with euchromatic constrictions in polytene chromosomes of Drosophila melanogaster. Cloned sequences were hybridized to filters and to chromosomes prepared for light microscopy. Under-represented sequences hybridized to DNA within constrictions and in ectopic fibers. In contrast, adjacent sequences that were fully endoreplicated in the Ubx and 11A regions in polytene cells hybridized to sites just adjacent to their respective constrictions. For one region (Ubx), sequences under-represented in salivary gland cells were fully endoreplicated in fat body cells. For this particular region, the morphology of the polytene chromosomes differs between these two cell types in that the specific constriction is absent at this region in fat body polytene chromosomes, thus strengthening the correlation between under-representation and chromosome constrictions. Although all three sequences are in regions that have been classified by others as intercalary heterochromatin, we detect no common functional or sequence organizational feature for these examples of under-represented DNA. We suggest that the lower efficiencies of the replication origins, or special regions of termination at these sites, are the primary cause of the under-replication, and that this under-replication is sufficient to confer the properties of intercalary heterochromatin.     

Drosophila SUUR protein associates with PCNA and binds chromatin in a cell cycle-dependent manner

Drosophila SUUR (Suppressor of UnderReplication) protein was shown to regulate the DNA replication elongation process in endocycling cells. This protein is also known to be the component of silent chromatin in polyploid and diploid cells. To mark the different cell cycle stages, we used immunostaining patterns of PCNA, the main structural component of replication fork. We demonstrate that SUUR chromatin binding is dynamic throughout the endocyle in Drosophila salivary glands. We observed that SUUR chromosomal localization changed along with PCNA pattern and these proteins largely co-localized during the late S-phase in salivary glands. The hypothesized interaction between SUUR and PCNA was confirmed by co-immunoprecipitation from embryonic nuclear extracts. Our findings support the idea that the effect of SUUR on replication elongation depends on the cell cycle stage and can be mediated through its physical interaction with replication fork.     

DNA replication in polytene chromosomes: Similarity of termination patterns in somatic and germ-line derived polytene chromosomes of Anopheles stephensi liston (Diptera: Culicidae)

DNA replication is initiated in the ovarian follicles of the anautogenous Culicid Anopheles stephensi in response to a blood meal. The chronology of nurse cell polytene chromosome³H-thymidine labelling patterns has been defined and the terminal labelling patterns of the nurse cell and larval salivary gland polytene X-chromosomes have been compared and found to be essentially similar.