piggyBac转座子AgoPLE1.1在黑腹果蝇种系转化中的应用

[目的]通过检测黑腹果蝇 DDrosophiila melanogaster中piggyBac(PB)转座子AgoPLE1.1的转化活性,明确AgoPLE1.1开发为昆虫转基因载体的潜力.[方法]构建AgoPLE1.1转座酶辅助质粒pAgoHsp和带有红色荧光标记的供体质粒pXLAgo-PUbDsRed,辅助质粒和供体...     

An in vivo RNAi assay identifies major genetic and cellular requirements for primary piRNA biogenesis in Drosophila

In Drosophila, PIWI proteins and bound PIWI‐interacting RNAs (piRNAs) form the core of a small RNA‐mediated defense system against selfish genetic elements. Within germline cells, piRNAs are processed from piRNA clusters and transposons to be loaded into Piwi/Aubergine/AGO3 and a subset of piRNAs undergoes target‐dependent amplification. In contrast, gonadal somatic support cells express only Piwi, lack signs of piRNA amplification and exhibit primary piRNA biogenesis from piRNA clusters. Neither piRNA processing/loading nor Piwi‐mediated target silencing is understood at the genetic, cellular or molecular level. We developed an in vivo RNAi assay for the somatic piRNA pathway and identified the RNA helicase Armitage, the Tudor domain containing RNA helicase Yb and the putative nuclease Zucchini as essential factors for primary piRNA biogenesis. Lack of any of these proteins leads to transposon de‐silencing, to a collapse in piRNA levels and to a failure in Piwi‐nuclear accumulation. We show that Armitage and Yb interact physically and co‐localize in cytoplasmic Yb bodies, which flank P bodies. Loss of Zucchini leads to an accumulation of Piwi and Armitage in Yb bodies, indicating that Yb bodies are sites of primary piRNA biogenesis.     

The suppressor of forked locus in Drosophila melanogaster: genetic and molecular analyses

The suppressor of forked, su(f) locus is one of a class of loci in Drosophila whose mutant alleles are trans-acting allele-specific modifiers of transposable element-insertion mutations at other loci. Mutations of su(f) suppress gypsy insert alleles of forked and enhance the copia insert allele white apricot. Our investigations of su(f) include genetic and molecular analyses of 19 alleles to determine the numbers and types of genetic functions present at the locus. Our results suggest the su(f) locus contains multiple genetic functions. There are two distinct modifier functions and two vital functions. One modifier function is specific for enhancement and the other for suppression. One vital function is required for normal ecdysterone production in the third larval instar, the other is not. We present a restriction map of the su(f) genomic region and the results of an RFLP analysis of several su(f) alleles.     

RNAi-mediated inhibition of gene function in the follicle cell layer of the Drosophila ovary

RNA-mediated interference (RNAi) has been reported to be an effective reverse genetic approach for studying gene function in various organisms. To assess RNAi as a means of examining genes expressed in ovarian follicle cells for their involvement in embryonic dorsal-ventral patterning, we tested the ability of transgenically expressed double-stranded RNA (dsRNA) directed against the dorsal group gene windbeutel to generate phenotypic effects in the progeny of expressing females. We observed that expression in follicle cells under the control of Gal4 transcribed from the strong and widely expressed alphaTub84B or Actin5C promoters led to efficient dorsalization of progeny embryos. Surprisingly, a variety of strongly expressed follicle cell-specific Gal4 enhancer trap lines failed to elicit an RNAi phenotype in combination with the windbeutel-specific dsRNA. These results stress the importance of careful choice of expression system and of conditions for use in transgenic RNAi-mediated studies of gene function.     

Spaghetti,a homolog of human RPAP3 (RNA polymerase II‐associated protein 3), determines the fate of germline stem cells in Drosophila ovary

The Drosophila ovary provides an attractive model for studying the extrinsic or intrinsic factors that regulate the fate of germline stem cells (GSCs). Using this model, we identified a new role for Drosophila spaghetti (spag), encoding a homolog of human RNA polymerase II‐associated protein 3 (RPAP3), in regulating the fate of ovarian GSCs. Results from spag knockdown and genetic mosaic studies suggest that spag functions as an intrinsic factor for GSCs maintenance. Loss of Spag by, either spag RNAi or null mutation failed to trigger apoptosis in ovarian GSCs. Overexpression of spag led to negligible increases in the number of GSC/Cystoblast (CB) cells, suggesting that an excess of Spag is not sufficient to accelerate the proliferation of GSCs or delay CBs’ differentiation. Our study provides evidence supporting that spag is involved in adult stem cells maintenance. In addition, the RNAi screen results showed that knockdown of Hsp90, one of known Spag interacting partners, led to loss of ovarian GSCs in Drosophila. Heterozygous mutations in hsp90 (hsp90/+) dramatically accelerated the GSC loss in spag RNAi ovaries, suggesting that the Spag‐contained complex possibly plays an essential role in controlling the GSCs fate.     

The foldback-like transposon Galileo is involved in the generation of two different natural chromosomal inversions of Drosophila buzzatii

Chromosomal inversions are the most common type of genome rearrangement in the genus Drosophila. Although the potential of transposable elements (TEs) for generating inversions has been repeatedly demonstrated in the laboratory, little is known on their role in the generation of natural inversions, which are those effectively contributing to the adaptation and/or evolution of species. We have cloned and sequenced the two breakpoints of the polymorphic inversion 2q7 of D. buzzatii. The sequence analysis of the breakpoint regions revealed the presence in the inverted chromosomes of large insertions, formed by complex assemblies of transposons, that are absent from the chromosomes without the inversion. Among the transposons inserted, the Foldback-like element Galileo, that was previously found responsible of the generation of the widespread inversion 2j of D. buzzatii, is present at both 2q7 breakpoints and is the most likely inducer of the inversion. A detailed study of the nucleotide and structural variation in the breakpoint regions of six chromosomal lines with the 2q7 inversion detected no nucleotide differences between them, which suggests a monophyletic and recent origin. In contrast, a remarkable degree of structural variation was observed in the same six chromosomal lines. It thus appears that the two breakpoints of the inverted chromosomes have become genetically unstable hotspots, as was previously found for the 2j inversion breakpoints. The possibility that this instability is caused by structural properties of Foldback elements is discussed.     

Domain specific genetic mosaic system in the Drosophila eye

Genetic mosaic approach is commonly used in the Drosophila eye by completely abolishing or misexpressing a gene within a subset of cells to unravel its role during development. Classical genetic mosaic approach involves random clone generation in all developing fields. Consequently, a large sample size needs to be screened to generate and analyze clones in specific domains of the developing eye. To address domain specific functions of genes during axial patterning, we have developed a system for generating mosaic clones by combining Gal4/UAS and flippase (FLP)/FRT system which will allow generation of loss‐of‐function as well as gain‐of‐function clones on the dorsal and ventral eye margins. We used the bifid‐Gal4 driver to drive expression of UAS‐FLP. This reagent can have multiple applications in (i) studying spatio‐temporal function of a gene during dorso‐ventral (DV) axis specification in the eye, (ii) analyzing genetic epistasis of genes involved in DV patterning, and (iii) conducting genome wide screens in a domain specific manner. genesis 51:68–74, 2013. © 2012 Wiley Periodicals, Inc.     

Autonomous transposition of gypsy mobile elements and genetic instability in Drosophila melanogaster

Summary The laboratory imitator strain (MS) of Drosophila melanogaster is characterized by an elevated frequency of spontaneous mutation (10^–3–10^–4). Mutations occur in both sexes at premeiotic stages of germ cell development. The increased mutability is a characteristic feature of MS itself, since it appears in the absence of outcrossing. Most of the mutations arising in this strain are unstable: reversions to wild type, high frequency mutation to new mutant states and replicating instability were observed. We have investigated the localization of the transposable genetic elements mdg1, 412, mdg3, gypsy (mdg4), copia and P in the X chromosomes of the MS and in the mutant lines y, ct, sbt derived from it by in situ hybridization. The P element was not found in any of these strains. The distributions of mdg1, 412, mdg3 and copia were identical in the X chromosomes of the MS and its derivatives. However, the sites of hybridization with gypsy differ in the various lines tested. In the polytene chromosomes of MS animals significant variation in location and number of copies of the gypsy element was demonstrated between different larvae; copy numbers as high as 30–40 were observed. These results suggest autonomous transposition of gypsy in the MS genome while several other mobile elements remain stable.     

Mutations to the piRNA Pathway Component Aubergine Enhance Meiotic Drive of Segregation Distorter in Drosophila melanogaster

Diploid sexual reproduction involves segregation of allelic pairs, ensuring equal representation of genotypes in the gamete pool. Some genes, however, are able to “cheat” the system by promoting their own transmission. The Segregation distorter (Sd) locus in Drosophila melanogaster males is one of the best-studied examples of this type of phenomenon. In this system the presence of Sd on one copy of chromosome 2 results in dysfunction of the non–Sd-bearing (Sd⁺) sperm and almost exclusive transmission of Sd to the next generation. The mechanism by which Sd wreaks such selective havoc has remained elusive. However, its effect requires a target locus on chromosome 2 known as Responder (Rsp). The Rsp locus comprises repeated copies of a satellite DNA sequence and Rsp copy number correlates with sensitivity to Sd. Under distorting conditions during spermatogenesis, nuclei with chromosomes containing greater than several hundred Rsp repeats fail to condense chromatin and are eliminated. Recently, Rsp sequences were found as small RNAs in association with Argonaute family proteins Aubergine (Aub) and Argonaute3 (AGO3). These proteins are involved in a germline-specific RNAi mechanism known as the Piwi-interacting RNA (piRNA) pathway, which specifically suppresses transposon activation in the germline. Here, we evaluate the role of piRNAs in segregation distortion by testing the effects of mutations to piRNA pathway components on distortion. Further, we specifically targeted mutations to the aub locus of a Segregation Distorter (SD) chromosome, using ends-out homologous recombination. The data herein demonstrate that mutations to piRNA pathway components act as enhancers of SD.     

A strategy for mapping the heterochromatin of chromosome 2 of Drosophila melanogaster

The heterochromatin of chromosome 2 of Drosophila melanogaster has been among the best characterized models for functional studies of heterochromatin owing to its abundance of genetic markers. To determine whether it might also provide a favorable system for mapping extended regions of heterochromatin, we undertook a project to molecularly map the heterochromatin of the left arm of chromosome 2 (2Lh). In this paper, we describe a strategy that used clones and sequence information available from the Drosophila Genome Project and chromosome rearrangements to construct a map of the distal most portion of 2Lh. We also describe studies that used fluorescent in situ hybridization (FISH) to examine the resolution of this technique for cytologically resolving heterochromatic sequences on mitotic chromosomes. We discuss how these mapping studies can be extended to more proximal regions of the heterochromatin to determine the structural patterns and physical dimensions of 2Lh and the relationship of structure to function.     

Environmental heterogeneity and the maintenance of genetic variation for reproductive diapause in Drosophila melanogaster

Drosophila melanogaster has colonized temperate habitats on multiple continents over a historical time period, and many traits vary predictably with latitude. Despite considerable attention paid to clinal variation in Drosophila, the mechanisms generating such patterns in nature remain largely unidentified. In D. melanogaster, the expression of reproductive diapause can be induced by exposure to low temperatures and shortened photoperiods. Both diapause expression itself and the underlying genetic variance for diapause expression have widespread impacts on organismal fitness, and diapause incidence exhibits a 60% cline in frequency in the eastern United States. The major aim of this study was to evaluate whether the relative fitness of diapause and nondiapause genotypes varies predictably with environment. In experimental population cages in the laboratory, the frequency of genotypes that express diapause increased over time when flies were exposed to environmental stress, whereas the frequency of nondiapause genotypes increased when flies were cultured under benign control conditions. Other fitness traits correlated with the genetic variance for diapause expression (longevity, mortality rates, stress resistance, lipid content, preadult viability, fecundity profiles, and development time) also diverged between experimental treatments. Similarly, sampling of isofemale lines from natural populations revealed that the frequency of diapause incidence cycled over time in seasonal habitats: diapause expression was at high frequency following the winter season and subsequently declined throughout the summer months. In contrast, diapause expression was low and temporally homogeneous in isofemale line collections from human-associated urban habitats. These data suggest that genetic variation underlying the diapause-nondiapause dichotomy may be actively maintained by selection pressures that vary spatially and temporally in natural populations.     

A novel simple satellite DNA is colocalized with the Stalker retrotransposon in Drosophila melanogaster heterochromatin

In the T(1;2)dor ^var7 multibreak rearrangement the distal 1A-2B segment of the X chromosome of Drosophila melanogaster is juxtaposed to an inverted portion of the heterochromatin of chromosome 2. Analysis of mitotic chromosomes by a series of banding techniques has permitted us precisely to locate the heterochromatic breakpoint of this translocation in the h42 region of 2R. Cloning and sequencing of the eu-heterochromatic junction revealed that the translocated 1A-2B fragment is joined to (AACAC)_n repeats, which represent a previously undescribed satellite DNA in D. melanogaster. These repeated sequences have been estimated to account for about 1 Mb of the D. melanogaster genome. The repeats are located mainly in the Y chromosome and in the heterochromatin of the right arm of chromosome 2 (2Rh), where they are colocalized with the Stalker retrotransposon. Received: 3 October 1998 / Accepted: 3 December 1998     

A method for assaying DNA-dependent RNA polymerase II in crude extracts of Drosophila melanogaster adults: Its use in identifying mutants with an altered RNA polymerase II

A method for assaying Drosophila melanogaster adult DNA-dependent RNA polymerase II in crude extracts from as few as two females or three males is described. Preparation of the extracts involves incubating homogenates at 25 C for 60 min and subsequent treatment with Macaloid. Eighty-five percent of the activity in the extracts is inhibited by 1 µg/ml -amanitin and this fraction is attributed to RNA polymerase II. RNA polymerase II activity in the extracts shows a good dose dependence and a partial dependence on added DNA, Mn²⁺, and all four ribonucleoside triphosphates. The kinetics of heat inactivation of RNA polymerase II in crude extracts could be reproducibly measured. Flies of different genotypes had different initial rates of RNA polymerase II heat inactivation. The isolation of Drosophila melanogaster -aminitin-resistant mutants is also reported. Using the assay described in this paper, it appears that the basis for the resistance is an altered RNA polymerase II. The mutation has been mapped to the third chromosome by chromosome replacement.Supported by Grants GM23456 from the NIH and 11259 from the City University Research Foundation.     

A Drosophila model of improving the fitness of translocations for genetic control

Summary Translocations with euchromatic breakpoints were generated in lethal-free autosomes of Drosophila melanogaster. Pairs of initially homozygous-lethal translocations, matched for one breakpoint, were allowed to recombine for ten generations. At the end of the experiment, 10/47=21% of crosses (representing 8/26=31% of the intial translocations) had at least one line with at least one homokaryotypic third-instar larva, detected among a small sample of salivary gland preparations from each cross. Among these ten crosses, chromosome extractions were performed; 5/10 of the crosses (probably representing 4/8 of the translocations) had at least one chromosome set with relative viability greater than 15%–25%. To a first (and conservative) approximation, 5/47=11% of crosses showed improvement of viability of 1 of the translocations in the cross during the controlled recombination regime; overall, 4 of the 26 translocations (15%) showed improvement of viability. Partly because of the conservative criterion of viability used, this figure is less than the 20% of translocations that theoretically should be improvable. Pseudohomokaryotypes (pairs of translocations with both breakpoints nearly matching) did not behave as very fit homokaryotypes. However, some of them generated viable hyperploid assortment products that might be of practical interest to mask deleterious effects at breakpoints of translocations. The improvement of fitness of at least a proportion of low fitness translocation stocks by the use of a controlled recombination procedure should be feasible for many pest species.