Evolution of the<Emphasis Type="Italic"> Drosophila broad</Emphasis> locus: the<Emphasis Type="Italic"> Manduca sexta broad</Emphasis> Z4 isoform has biological activity in<Emphasis Type="Italic"> Drosophila</Emphasis>

The Drosophila melanogaster broad locus is essential for normal metamorphic development. Broad encodes three genetically distinct functions (rbp, br, and 2Bc) and a family of four zinc-finger DNA-binding proteins (Z1-Z4). The Z1, Z2, and Z3 protein isoforms are primarily associated with the rbp, br, and 2Bc genetic functions respectively. The Z4 protein isoform also provides some rbp genetic function, however an essential function for the Z4 isoform in metamorphosis has not been identified. To determine the degree of conservation of Z4 function between the tobacco hornworm Manduca sexta and Drosophila we generated transgenic Drosophila expressing the Manduca broad Z4 isoform and used this transgene to rescue rbp mutant lethality during Drosophila metamorphosis. We find that the Manduca Z4 protein has significant biological activity in Drosophila with respect to rescue of rbp-associated lethality. There was also some overlap in effects on cuticle gene expression between the Manduca Z4 and Drosophila Z1 isoforms that was not shared with the Drosophila Z4 isoform. Our findings show that Z4 function has been conserved over the 260-million-year period since the divergence of Diptera and Lepidoptera, and are consistent with the hypothesis that the Drosophila Z4 and Manduca Z4 isoforms have essential roles in metamorphosis.Edited by M. Akam     

Distribution of the Transposable Element Minos in the Genus Drosophila

We analyzed 28 species of the genus Drosophilafor the presence of the Tc1-like transposable element Minosusing Southern blot hybridization under high stringency conditions. The Minostransposon was found in members of both the Drosophilaand the Sophophorasubgenus showing a distribution that is wider if compared to other well-studied Drosophilatransposons such as the Pelement, hoboand mariner. The presence of Minos-hybridizing sequences was discontinuous in the Sophophorasubgenus, especially in the melanogasterspecies group. Using the Polymerase Chain Reaction we amplified a portion corresponding to the putative Minostransposase from different Drosophilaspecies. Cloning and sequence analysis of randomly selected Minoscopies from D. mojavensisis, D. saltansand D. willistonisupports the idea that event(s) of horizontal transfer may have contributed to the spreading of this transposon in the Drosophilagenus. This revised version was published online in July 2006 with corrections to the Cover Date.     

果蝇共生菌降低有害真菌的毒性

【背景】目前对于如何解决有害真菌对黑腹果蝇的致死性病理研究较少,对共生菌抑制有害真菌的研究引起普遍关注。【目的】检测黑腹果蝇共生菌对病原性真菌的拮抗作用,揭示共生菌提高果蝇的适合度。【方法】利用PDA培养基分离黑腹果蝇食物中真菌;利用形态和rDNAITS基因序列比对进行真菌的鉴定;通过测量菌落直径、孢子数量以及菌丝分枝数量以评定真菌的生长;利用存活率评估病原真菌的毒性;建立无菌和悉生模型,通过发育历期验证其共生菌与病原性真菌的竞争作用;利用双向选择食物装置检测共生菌抑制病原真菌的效果。【结果】从果蝇食物中分离出的真菌经鉴定为拟茎点霉(Phomopsis),可显著地降低成年果蝇的存活率和延缓果蝇发育。东方醋酸杆菌在体外可明显抑制拟茎点霉的生长,有效地减轻拟茎点霉对果蝇的致死作用,挽救了拟茎点霉导致的果蝇发育延滞,改善了果蝇产卵对拟茎点霉的趋避作用。【结论】拟茎点霉是果蝇的一株条件性病原真菌,而东方醋酸杆菌可以有效地减轻拟茎点霉对果蝇生长发育和存活率的损害,从而提高果蝇适合度。     

Expression of the human FUSED protein in <Emphasis Type="Italic">Drosophila</Emphasis>

The Drosophila segment polarity gene fused, which encodes a serine threonine kinase, is required to transmit the Hedgehog (Hh) signal in imaginal discs. To explore the functional homology between the human protein FUSED (hFU) and the Drosophila protein fused (dFu), we have subjected hFU to a precise and well-defined Hh signalling assay of Drosophila wing development. In the wildtype, hFU affects the expression of Hh target genes leading thus to defects in adult wings. In fu mutants, overexpression of hFU cannot rescue the fu phenotype. These results suggest that hFU in Drosophila interferes with endogenous Hh signalling probably by competing with endogenous dFu when binding its partners but cannot perform the normal Fu function.Edited by C. Desplan     

Hsp22对SCA3/MJD转基因果蝇的神经保护作用研究

为了探讨Hsp22在SCA3/MJD发病机制中的作用．选用GMR-GAL4和elav-GAL4驱动子,利用经典的GAL4-UAS系统,将含有78个CAG重复扩增的ataxin-3蛋白片段(MJDtr-Q78)分别在果蝇眼睛和神经系统选择性表达,构建GMR-GAL4/UAS和elav-GAL4/UAS系统SCA3/MJD转基因果蝇模型, 然后利用遗传学方法和热休克反应使Hsp22在SCA3/ MJD转基因果蝇眼睛和神经系统以不同水平过表达．结果表明,Hsp22过表达显著抑制了MJDtr-Q78蛋白的神经毒性,果蝇眼睛视网膜光感受神经元变性明显缓解,果蝇存活能力也显著提高．Hsp22对SCA3/MJD具有保护作用,增强Hsp22表达对SCA3/MJD可能是一种潜在的治疗方法．     

Effects of microbial floras on the distributions of five domestic Drosophila species across fruit resources

Summary The distributions of five Drosophila species and four components of the microflora have been compared across a total of 48 traps baited with four different fruit and vegetable substrates in two domestic compost heaps in Canberra (Australia). Large and consistent differences are found, both among the Drosophila and among the microbial classes, in their distributions across traps baited with different substrates. Moreover the distribution of each Drosophila species shows a unique set of strong associations with the microbial distributions. Thus the distributions of both D. simulans and D. melanogaster are found to be strongly negatively correlated with the abundance of bacteria while D. simulans is also strongly positively correlated with the titre of fermenter yeasts. D. immigrans is strongly positively correlated both with bacteria and with non-fermenter yeasts. D. hydei is positively correlated with nonfermentery yeasts and D. busckii is negatively correlated with fermenter yeasts. Moulds are the only microbial class not consistently associated with the distribution of any of the Drosophila species. The correlations with the other microbial classes are sufficient to explain the majority of the abundance differences of the Drosophila species among the trap types. It is therefore proposed that the clear partitioning of the fruit resources by the Drosophila is due to their differing primary interactions with the microflora.     

研究报告: 沉默信息调节因子2对SCA3/MJD转基因果蝇的神经保护作用及其与自噬的相关性研究

为探讨沉默信息调节因子2(Sir2)在SCA3/MJD发病机制中的作用．选用GMR-GAL4 和Nrv2-GAL4驱动子,利用经典的GAL4-UAS系统,将含有78 个CAG 重复扩增的ataxin-3 蛋白片段(MJDtr-Q78)分别在果蝇眼睛和运动神经元内选择性表达,构建GMR-GAL4/UAS 和Nrv2-GAL4/UAS 系统SCA3/MJD 转基因果蝇模型,然后分别在抑制和不抑制自噬的情况下,使Sir2在SCA3/MJD 转基因果蝇眼睛和运动神经元内过表达．结果发现,Sir2过表达明显抑制了SCA3/MJD 转基因果蝇眼睛视网膜光感受神经元变性,显著改善了果蝇运动能力,而在自噬被抑制后,Sir2的作用效果明显减弱,表明Sir2对SCA3/MJD 转基因果蝇具有神经保护作用,而这种神经保护作用需要依赖自噬的功能．     

Evolution and population biology of theperiodgene

The clock gene period (per), originally identified inDrosophila, evolves relatively quickly within the insects; probably for this reason, no convincingperhomologues have been identified outside this class. However antibodies toDrosophilaPER have labelled neural pacemakers in other organisms, including mammals. Conserved regions, such as the PAS dimerization domain, reflect its functional importance, but the long Thr–Gly repeat encoded withinperis not conserved outside theDrosophila. The repeat appears to be a component of the temperature compensation system in the fly. This is reflected in the population structure of natural Thr–Gly length variants ofD. melanogaster. Patterns of nucleotide variation withinDrosophila perhave been used to examine the selective forces that have shaped the evolution of this gene.     

CDK inhibitors suppress apoptosis induced by chemicals and by excessive expression of a cell death gene, reaper, in Drosophila cells

The present study was aimed to investigate whether or not cyclin-dependent kinases (CDKs) participate in different cascades leading to apoptosis. We examined the effects of two CDK inhibitors, olomoucine (OLM) and buty-rolactone-I (BL-I), on apoptosis induced in two kinds of Drosophila cell lines. Increases of caspase activity induced by actinomycin D, cycloheximide, H-7 or A23187 in a Drosophila neuronal cell line, ML-DmBG2-c2, and induced by excessive expression of a Drosophila cell death gene, reaper, in Drosophila S2 cells were suppressed by 24-h pretreatment of each CDK inhibitor. Concomitant with the suppression of the caspase activity, fragmentations of cells and DNA, representatives of apoptosis, were also inhibited. These results suggest that CDK(s) participates in progression of apoptosis. However, these effects of the CDK inhibitors were also observed even at lower doses which did not affect cell proliferation. Therefore, it was shown that apoptosis is not always related to cell cycle in Drosophila cells. It was also suggested that the target(s) of the CDK inhibitors locates upstream of caspase in the cascade(s) of apoptosis.     

RNA干扰技术在果蝇中的应用

RNA干扰是双链RNA特异诱导的转录后期基因沉默.该技术随着不断完善而越来越被广泛地运用于果蝇的功能基因组研究上,双链RNA已经成为果蝇中功能基因的一个十分有效的抑制子,势必使RNA干扰技术成为研究果蝇体内基因功能的强有力的反向遗传学研究技术.     

Cuticle differentiation in the embryo of the amphipod crustacean Parhyale hawaiensis

The arthropod cuticle is a multilayered extracellular matrix produced by the epidermis during embryogenesis and moulting. Molecularly and histologically, cuticle differentiation has been extensively investigated in the embryo of the insect Drosophila melanogaster. To learn about the evolution of cuticle differentiation, we have studied the histology of cuticle differentiation during embryogenesis of the amphipod crustacean Parhyale hawaiensis, which had a common ancestor with Drosophila about 510 million years ago. The establishment of the layers of the Parhyale juvenile cuticle is largely governed by mechanisms observed in Drosophila, e.g. as in Drosophila, the synthesis and arrangement of chitin in the inner procuticle are separate processes. A major difference between the cuticle of Parhyale and Drosophila concerns the restructuring of the Parhyale dorsal epicuticle after deposition. In contrast to the uniform cuticle of the Drosophila larva, the Parhyale cuticle is subdivided into two regions, the ventral and the dorsal cuticles. Remarkably, the boundary between the ventral and dorsal cuticles is sharp suggesting active extracellular regionalisation. The present analysis of Parhyale cuticle differentiation should allow the characterisation of the cuticle-producing and -organising factors of Parhyale (by comparison with the branchiopod crustacean Daphnia pulex) in order to contribute to the elucidation of fundamental questions relevant to extracellular matrix organisation and differentiation. This work was supported by the German Research Foundation (DFG, grant number MO 1714/1-1).     

<Emphasis Type="Italic">Drosophila</Emphasis> retinophilin contains MORN repeats and is conserved in humans

The function of conserved novel human genes can be efficiently addressed in genetic model organisms. From a collection of genes expressed in the Drosophila visual system, cDNAs expressed in vertebrates were identified and one similar to a novel human gene was chosen for further investigation. The results reported here characterize the Drosophila retinophilin gene and demonstrate that a similar gene is expressed in the human retina. The Drosophila and human retinophilin sequences are 50% identical, and they share an additional 16% conserved substitutions. Examination of the cDNA and genomic sequence indicates that it corresponds to the gene CG10233 of the annotated genome and predicts a 22.7 kDa protein. Polyclonal antibodies generated to a predicted retinophilin peptide recognize an antigen in Drosophila photoreceptor cells. The retinophilins encode 4 copies of a repeat associated with a Membrane Occupation and Recognition Nexus (MORN) function first discovered in junctophilins, which may interact with the plasma membrane. These results therefore show that Drosophila retinophilin is expressed in fly photoreceptor cells, demonstrate that a conserved human gene is expressed in human retina, and suggest that a mutational analysis of the Drosophila gene would be valuable.     

Parental Imprinting in Drosophila

Genetic imprinting is a form of epigenetic silencing. But with a twist. The twist is that while imprinting results in the silencing of genes, chromosome regions or entire chromosome sets, this silencing occurs only after transmission of the imprinted region by one sex of parent. Thus genetic imprinting reflects intertwined levels of epigenetic and developmental modulation of gene expression. Imprinting has been well documented and studied in Drosophila, however, these studies have remained largely unknown due to nothing more significant than differences in terminology. Imprinting in Drosophilais invariably associated with heterochromatin or regions with unusual chromatin structure. The imprint appears to spread from imprinted centers that reside within heterochromatin and these are, seemingly, the only regions that are normally imprinted in Drosophila. This is significant as it implies that while imprinting occurs in Drosophila, it is generally without phenotypic consequence. Hence the evolution of imprinting, at least in Drosophila, is unlikely to be driven by the function of specific imprinted genes. Thus, the study of imprinting in Drosophilahas the potential to illuminate the mechanism and biological function of imprinting, and challenge models based solely on imprinting of mammalian genes. This revised version was published online in July 2006 with corrections to the Cover Date.     

Specific expression of the Drosophila midline-jumper retro-transposon in embryonic CNS midline cells

Here we describe of a novel Drosophila LTR-type retrotransposon that is expressed in the embryonic CNS midline glia and in the embryonic germ cells. The element is related to the gypsy and burdock retrotransposons and was termed midline-jumper. In addition to cDNA clones generated from internal retrotransposon sequences, we have identified one cDNA clone that appears to reflect a transposition event, indicating that the midline-jumper retrotransposon is not only transcribed but also able to transpose during Drosophila development.     

Conditional mutations in SERCA, the Sarco-endoplasmic reticulum Ca2+-ATPase, alter heart rate and rhythmicity in Drosophila

To analyze the role of cytosolic calcium in regulating heart beat frequency and rhythm, we studied conditional mutations in Drosophila Sarco-endoplasmic reticulum Ca²⁺-ATPase, believed to be predominantly responsible for sequestering free cytosolic calcium. Abnormalities in the amount or structure of the SERCA protein have been linked to cardiac malfunction in mammals. Drosophila SERCA protein (dSERCA) is highly enriched in Drosophila larval heart with a distinct membrane distribution of SERCA at cardiac Z-lines, suggesting evolutionarily conserved zones for calcium uptake into the sarcoplasmic reticulum. Heart beat frequency is strikingly reduced in mutant animals following dSERCA inactivation, (achieved by a brief exposure of these conditional mutants to non-permissive temperature). Cardiac contractions also show abnormal rhythmicity and electrophysiological recordings from the heart muscle reveal dramatic alterations in electrical activity. Overall, these studies underscore the utility of the Drosophila heart to model SERCA dysfunction dependent cardiac disorders and constitute an initial step towards developing Drosophila as a viable genetic model system to study conserved molecular determinants of cardiac physiology.     

lats基因在细胞周期和肿瘤发生中的作用

lats基因(large tumor suppressor gene)最早在果蝇中发现,在小鼠和人中均有同源基因.该基因的功能从果蝇到人是高度保守的.lats基因的功能包括:作为肿瘤抑制基因,其突变会导致肿瘤的发生;磷酸化的Lats与Cdc2结合,参与细胞周期的调控;通过细胞-细胞间的通讯,可能参与生物体个体大小的调控机制.从果蝇到人lats基因功能的研究,提供了以果蝇作为模式生物研究哺乳动物基因功能的方法.     

Use of a cytoplasmically localised P-lacZ fusion to identify cell shapes by enhancer trapping inDrosophila

Summary The N-terminal 125 amino acids of theDrosophila P element transposase are necessary and sufficient for the nuclear localisation of a hybridlacZ gene product in most cell types of theDrosophila embryo. A P-lacZ enhancer-trap element lacking these residues is of use in visualizing the shapes of P-lacZ-expressing cells.     

The development of a medium supplemented with egg extract for the maintenance ofDrosophila cell lines

Summary A saline extract was prepared fromDrosophila eggs. When diluted to a concentration of 1% withDrosophila tissue culture medium, it did not support growth of cells from theDrosophila line D1 during the first few days of subculture as well as medium containing serum. When cells reached a stationary phase, however, the cell density in medium containing extract was greater than in medium containing serum. By altering the concentrations of the extract, and by adding bovine albumin, a medium was obtained in which D1 cells survived initial culturing, and which supported cell growth by day 4 as well as medium plus serum. The initial retardation of growth in medium containing egg extract might be due to the need of the cells to adapt to the new medium. At the present time fourDrosophila cell lines have been maintained in this medium for more than 16 passages. Preliminary experiments with primary embryonicDrosophila cells indicate that medium containing 2% extract and bovine albumin retards the differentiation of these cells. This work was supported by a grant from the Science Research Council of Great Britain.     

Identification of One Intron Loss and Phylogenetic Evolution of Dfak Gene in the Drosophila melanogaster Species Group

Intron loss and its evolutionary significance have been noted in Drosophila. The current study provides another example of intron loss within a single-copy Dfak gene in Drosophila. By using polymerase chain reaction (PCR), we amplified about 1.3 kb fragment spanning intron 5–10, located in the position of Tyr kinase (TyK) domain of Dfak gene from Drosophila melanogaster species group, and observed size difference among the amplified DNA fragments from different species. Further sequencing analysis revealed that D. melanogaster and D. simulans deleted an about 60 bp of DNA fragment relative to other 7 Drosophila species, such as D. elegans, D. ficusphila, D. biarmipes, D. takahashii, D. jambulina, D. prostipennis and D. pseudoobscura, and the deleted fragment located precisely in the position of one intron. The data suggested that intron loss might have occurred in the Dfak gene evolutionary process of D. melanogaster and D. simulans of Drosophila melanogaster species group. In addition, the constructed phylogenetic tree based on the Dfak TyK domains clearly revealed the evolutionary relationships between subgroups of Drosophila melanogaster species group, and the intron loss identified from D. melanogaster and D. simulans provides a unique diagnostic tool for taxonomic classification of the melanogaster subgroup from other group of genus Drosophila.     

Evolutionary pattern of the gtwin retrotransposon in the Drosophila melanogaster subgroup

The gtwin retrotransposon was recently discovered in the Drosophila melanogaster genome and it is evolutionarily closer to gypsy endogenous retrovirus. This study has identified gtwin homologous sequences in the genome of D. simulans, D. sechellia, D. erecta and D. yakuba by performing homology searches against the public genome database of Drosophila species. The phylogenetic analyses of the gtwin env gene sequences of these species have shown some incongruities with the host species phylogeny, suggesting some horizontal transfer events for this retroelement. Moreover, we reported the existence of DNA sequences putatively encoding full-length Env proteins in the genomes of Drosophila species other than D. melanogaster. The results suggest that the gtwin element may be an infectious retrovirus able to invade the genome of new species, supporting the gtwin evolutionary picture shown in this work.