W. Ferro scite author profile

The imaginal disk cells of Drosophila have a cell cycle that is very similar to that of mammalian cells. Data concerning factors inducing tumors in these cells may directly relate to the risk of these factors for inducing cancer in humans. One of the genes involved in the regulation of cell cycle control is wts (warts), the Drosophila homolog of the mammalian tumor suppressor gene LATS1. The Drosophila wts mutations are recessive lethal. However, homozygous clones that arise in heterozygous flies in the imaginal disk cells lead to epithelial tumors, spectacular outgrowths visible on the cuticle of the adult. We have treated Drosophila larvae, heterozygous for wts, with the chemical mutagen MMS (methyl methanesulfonate) or with X-rays and measured the appearance of epithelial tumors in the eclosing adult flies. This test is a variation of the well-known Drosophila somatic mutation and recombination test (SMART), where mostly recessive markers have been used leading to visible phenotypes in the eyes and wings of the fly. We show that the sensitivity of this test is far greater than the comparable test system using the recessive eye marker white.

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Disruption of Drosophila Rad50 causes pupal lethality, the accumulation of DNA double-strand breaks and the induction of apoptosis in third instar larvae

Gorski

Romeijn

Eeken

et al. 2004

DNA Repair

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Lig4 and Rad54 Are Required for Repair of DNA Double-Strand Breaks Induced by P-Element Excision in DrosophilaThis article is dedicated to the memory of our colleague and friend Dr. Jan C. J. Eeken, who died unexpectedly on May 24, 2002.

Romeijn

Gorski

Schie

et al. 2005

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Site-specific double-strand breaks (DSBs) were generated in the white gene located on the X chromosome of Drosophila by excision of the w hd P-element. To investigate the role of nonhomologous end joining (NHEJ) and homologous recombination (HR) in the repair of these breaks, the w hd P-element was mobilized in flies carrying mutant alleles of either lig4 or rad54. The survival of both lig4-and rad54-deficient males was reduced to 25% in comparison to the wild type, indicating that both NHEJ and HR are involved in the repair P-induced gaps in males. Survival of lig4-deficient females was not affected at all, implying that HR using the homologous chromosome as a template can partially compensate for the impaired NHEJ pathway. In rad54 mutant females survival was reduced to 70% after w hd excision. PCR analysis indicated that the undamaged homologous chromosome may compensate for the potential loss of the broken chromosome in rad54 mutant females after excision. Molecular analysis of the repair junctions revealed microhomology (2-8 bp)-dependent DSB repair in most products. In the absence of Lig4, the 8-bp target site duplication is used more frequently for repair. Our data indicate the presence of efficient alternative end-joining mechanisms, which partly depend on the presence of microhomology but do not require Lig4.

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Repair of UV-induced pyrimidine dinners in the individual genesGart, NotchandwhitefromDrosophila melanogastercell lines

Cock¹,

Klink²,

Ferro³

et al. 1991

Nucl Acids Res

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The excision repair of UV-induced pyrimidine dimers was investigated in three genes: Gart, Notch and white in a permanent Drosophila cell line Kc, derived from wild type Drosophila melanogaster embryonic cells. In this cell line Gart and Notch are actively transcribed, whereas white is not expressed. In all three genes UV-induced pyrimidine dimers were removed with the same rate and to the same extent: 60% removal within 16 hours, up to 80-100% in 24 hours after irradiation with 10 or 15 J/m2 UV. These kinetics are similar to the time course of dimer removal measured in the genome overall. No difference in repair of the inactive white locus compared to the active Gart and Notch genes was found. Similar results were obtained using a different wild type cell line, SL2, although repair appeared to be somewhat slower in this cell line. The results are discussed with respect to the data found for gene specific repair in other eukaryotic systems.

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Neither enhanced removal of cyclobutane pyrimidine dimers nor strand-specific repair is found after transcription induction of the β3-tubulin gene in a Drosophila embryonic cell line Kc

Cock

Klink

Ferro

et al. 1992

Mutation Research/DNA Repair

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W. Ferro

Induction of epithelial tumors in Drosophila melanogaster heterozygous for the tumor suppressor gene wts

Disruption of Drosophila Rad50 causes pupal lethality, the accumulation of DNA double-strand breaks and the induction of apoptosis in third instar larvae

Lig4 and Rad54 Are Required for Repair of DNA Double-Strand Breaks Induced by P-Element Excision in DrosophilaThis article is dedicated to the memory of our colleague and friend Dr. Jan C. J. Eeken, who died unexpectedly on May 24, 2002.

Repair of UV-induced pyrimidine dinners in the individual genesGart, NotchandwhitefromDrosophila melanogastercell lines

Neither enhanced removal of cyclobutane pyrimidine dimers nor strand-specific repair is found after transcription induction of the β3-tubulin gene in a Drosophila embryonic cell line Kc

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