Homeless is required for RNA localization in Drosophila oogenesis and encodes a new member of the DE-H family of RNA-dependent ATPases.

Gillespie, Doreen E.; Berg, Celeste A.

doi:10.1101/gad.9.20.2495

Cited by 154 publications

(153 citation statements)

References 60 publications

(68 reference statements)

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“…Stocks with the following alleles were used: dcr-2 L811fsx and dcr-2 R416x , ago2 414 (Okamura et al 2004), ago2 51b (Xu et al 2004), aub HN2 and aub QC42 (Schü pbach and Wieschaus 1991), spn-E 1/E616 and spn-E hls-D125 (Gillespie and Berg 1995), piwi 1 (Cox et al 1998) and mnk(lok) p6 (Brodsky et al 2004). Embryos from piwi 1 homozygous clones were generated using the FLP-DFS system Perrimon 1992, 1996).…”

Section: Methodsmentioning

confidence: 99%

Components of the RNAi Machinery That Mediate Long-Distance Chromosomal Associations Are Dispensable for Meiotic and Early Somatic Homolog Pairing inDrosophila melanogaster

Blumenstiel

Theurkauf

et al. 2008

Genetics

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Homolog pairing is indispensable for the proper segregation of chromosomes in meiosis but the mechanism by which homologs uniquely pair with each other is poorly understood. In Drosophila, somatic chromosomes also undergo full homolog pairing by an unknown mechanism. It has been recently demonstrated that both insulator function and somatic long-distance interactions between Polycomb response elements (PREs) are stabilized by the RNAi machinery in Drosophila. This suggests the possibility that long-distance pairing interactions between homologs, either during meiosis or in the soma, may be stabilized by a similar mechanism. To test this hypothesis, we have characterized meiotic and early somatic chromosome pairing of homologous chromosomes in flies that are mutant for various components of the RNAi machinery. Despite the identification of a novel role for the piRNA machinery in meiotic progression and synaptonemal complex (SC) assembly, we have found that the components of the RNAi machinery that mediate long-distance chromosomal interactions are dispensable for homologous chromosome pairing. Thus, there appears to be at least two mechanisms that bring homologous sequences together within the nucleus: those that act between dispersed homologous sequences and those that act to align and pair homologous chromosomes.

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Section: Methodsmentioning

confidence: 99%

Components of the RNAi Machinery That Mediate Long-Distance Chromosomal Associations Are Dispensable for Meiotic and Early Somatic Homolog Pairing inDrosophila melanogaster

Blumenstiel

Theurkauf

et al. 2008

Genetics

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“…Oocyte determination requires egl and BicD; oo cyte positioning requires the function of a number of genes such as dicephalic, homeless, and spindleC (Frey et al 1984;Gonzalez-Reyes and St Johnston 1994;Gillespie and Berg 1995). Oocyte determination both re quires and stabilizes a polarized microtubule network that leads to microtubule-mediated transport of RNA from the nurse cells into the future oocyte (Theurkauf et al 1993).…”

Section: Egl and Bicd In Axis Determinationmentioning

confidence: 99%

An Egalitarian-BicaudalD complex is essential for oocyte specification and axis determination in Drosophila.

Mach¹,

Lehmann²

1997

Genes Dev.

191

218

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Genetic experiments suggest that polarization of the oocyte is linked directly to the initial cell fate determination that singles out the oocyte from its 15 sister cells. Specification of oocyte cell fate as well as establishment and maintenance of a polarized microtubule network within the Drosophila oocyte require the activity of the egalitarian (eg/) and BicaudalD (BicD) genes. We have isolated the egl gene and show that Egl protein colocalizes with BicD protein at all stages of oogenesis. Immunoprecipitation experiments show that both proteins are part of a protein complex. Egl and BicD proteins localize to the oocyte in three stages that correlate with the stepwise polarization of the oocyte. We propose that the Egl-BicD protein complex links microtubule polarity and RNA transport. During early oogenesis, the complex is required to transport factors promoting oocyte differentiation; during later stages of oogenesis the complex directs the sorting of RNA molecules required for anterior-posterior and dorsoventral patterning of the embryo.

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“…The loss of function of the spindle genes in the germline produces defects consistent with their role in the selection of the oocyte, the posterior positioning of the oocyte within the egg chamber, and the polarization of the anterior-posterior and dorsal-ventral axes of the follicle (Gillespie and Berg 1995;González-Reyes et al 1997;Ghabrial et al 1998;Abdu et al 2003;Staeva-Vieira et al 2003). The cloning of okra, spn-A, spn-B, and spn-D established a clear link between these genes and dsDNA break repair.…”

mentioning

confidence: 99%

Drosophila mus301/spindle-C Encodes a Helicase With an Essential Role in Double-Strand DNA Break Repair and Meiotic Progression

2006

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mus301 was identified independently in two genetic screens, one for mutants hypersensitive to chemical mutagens and another for maternal mutants with eggshell defects. mus301 is required for the proper specification of the oocyte and for progression through meiosis in the Drosophila ovary. We have cloned mus301 and show that it is a member of the Mus308 subfamily of ATP-dependent helicases and the closest homolog of human and mouse HEL308. Functional analyses demonstrate that Mus301 is involved in chromosome segregation in meiosis and in the repair of double-strand-DNA breaks in both meiotic and mitotic cells. Most of the oogenesis defects of mus301 mutants are suppressed by mutants in the checkpoint kinase Mei41 and in MeiW68, the Spo11 homolog that is thought to generate the dsDNA breaks that initiate recombination, indicating that these phenotypes are caused by activation of the DNA damage checkpoint in response to unrepaired Mei-W68-induced dsDNA breaks. However, neither mei-W68 nor mei-41 rescue the defects in oocyte specification of mus301 mutants, suggesting that this helicase has another function in oocyte selection that is independent from its role in meiotic recombination.

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Homeless is required for RNA localization in Drosophila oogenesis and encodes a new member of the DE-H family of RNA-dependent ATPases.

Cited by 154 publications

References 60 publications

Components of the RNAi Machinery That Mediate Long-Distance Chromosomal Associations Are Dispensable for Meiotic and Early Somatic Homolog Pairing inDrosophila melanogaster

Components of the RNAi Machinery That Mediate Long-Distance Chromosomal Associations Are Dispensable for Meiotic and Early Somatic Homolog Pairing inDrosophila melanogaster

An Egalitarian-BicaudalD complex is essential for oocyte specification and axis determination in Drosophila.

Drosophila mus301/spindle-C Encodes a Helicase With an Essential Role in Double-Strand DNA Break Repair and Meiotic Progression

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