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.     

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.     

Molybdoenzymes in Drosophila. IV. Further characterization of the cinnamon phenotype

Summary Mutations at the cin gene display drastically lowered levels of the molybdoenzymes, xanthine dehydrogenase (XDH) and aldehyde oxidase (AO), and lack pyridoxal oxidase (PO) and sulfite oxidase (SO) activities. Certain mutations at cin also display varying degrees of female sterility, which is maternally affected. Here we characterize five new cin alleles with respect to the molybdoenzyme activities as well as the molybdenum cofactor, commonly required for molybdoenzyme activity. In complementing cin heterozygotes we find that, in addition to the previously reported unusually high levels of XDH and AO activities, there are unusually elevated levels of SO activity, as well as complementation for PO activity. The levels of immunologically crossreacting material in such heterozygotes indicate that the elevated levels of molybdoenzyme activities cannot be due to increases in the number of enzyme molecules. Measurements of the level of molybdenum cofactor activity normally present in XDH, AO, PO, and SO point to the possibility that a larger fraction of the enzyme molecules are active in these heterozygotes. The possible role of SO with respect to cinnamon's female sterility is also discussed.     

果蝇学习记忆行为的分子机制

分子遗传学技术的应用一方面发展了新的神经组织学方法,使果蝇脑中的细微结构得以展示;另一方面,对记忆从形成到提取过程中信息处理的研究,表明蘑菇体可能在形成长时程记忆方面起重要作用,而一对背内侧核团（dorsal paired medial cells）与蘑菇体之间的信息传递对于记忆的“提取(retrieval)”是至关重要的.行为功能检测为视觉信号整和的研究提供了新的实验依据,从而使果蝇蘑菇体的高级脑中枢功能逐渐被揭示出来.     

Retention of autonomous replicating plasmids in cultured Drosophila cells

Summary Six kinds of autonomously replicating sequences (ARSs) derived from Drosophila or tobacco were inserted into the vector pDSV, constructed with pSV2-gpt and the copia long terminal repeat (LTR). The resulting ARS-containing plasmids, pDSV-ARSs, were transfected into the cultured Drosophila cells of GM1 S1cl1. Most of the plasmids remained for about 2 weeks and some for about 1 month in these cells. The retention time of the plasmid was not directly correlated with autonomously replicating activity of ARSs detected in the yeast. Two plasmids, one carrying ARS of Drosophila nuclear DNA and the other carrying tobacco DNA, showed the longest retention time in transformed cells and replication was confirmed in these cells. Some of these long lived plasmids were recovered, however, as modified forms. Other plasmids had disappeared 1 month after transfection. Two months following transfection, none of plasmids were recovered but they were detected in nuclear DNA as the integrated form. The integration patterns in all the cells transformed by different kinds of ARS-containing plasmids were similar to each other, and to the distribution pattern of copia LTR in the genome. These results suggest that copia LTR sequences contained in the pDSV-ARSs may participate in the integration process of these plasmids into Drosophila DNA.     

果蝇肠道共生菌对宿主作用的研究进展

肠道共生菌是动物体内的重要组成部分,在宿主的生长发育和健康等方面发挥着重要作用,近年来已成为国内外的研究热点.果蝇作为研究肠道微生物菌群功能的优秀模型,在肠道共生菌与宿主关系研究方面已取得许多重要进展.在本文中,我们首先对果蝇肠道微生物的组成和特征作了总结,然后对果蝇肠道共生菌在其生长发育、营养与代谢、行为反应、寿命以...     

A gain-of-function screen identifies wdb and lkb1 as lifespan-extending genes in Drosophila

The insulin/insulin-like growth factor (IGF) and the target of rapamycin (TOR) signaling pathways are known to regulate lifespan in diverse organisms. However, only a limited number of genes involved in these pathways have been examined regarding their effects on lifespan. Through a gain-of-function screen in Drosophila, we found that overexpression of the wdb gene encoding a regulatory subunit of PP2A, and overexpression of the lkb1 gene encoding a serine/threonine kinase, reduced organ size and extended lifespan. Overexpression of wdb also reduced the level of phosphorylated AKT, while overexpression of lkb1 increased the level of phosphorylated AMPK and decreased the level of phosphorylated S6K. Taken together, our results suggest that wdb- and lkb1-dependent lifespan extension is mediated by downregulation of S6K, a downstream component of the insulin/IGF and TOR signaling pathways.     

Cell proliferation, survival, and death in the Drosophila eye

The Drosophila retina has a precise repeating structure based on the unit eye, or ommatidium. This review summarizes studies of the cell proliferation and survival episodes that affect the number of cells available to make each ommatidium. Late in larval development, as differentiation and patterning begin, the retinal epithelium exhibits striking regulation of the cell cycle including a transient G1 arrest of all cells, followed by a ‘Second Mitotic Wave’ cell cycle that is regulated at the G2/M transition by local intercellular signals. Reiterated episodes of cell death also contribute to precise regulation of retinal cell number. The EGF receptor homolog has multiple roles in retinal proliferation and survival.     

以果蝇模型研究人类神经退行性疾病

人类神经退行性疾病是一类以神经元退行性病变导致个体行为异常乃至死亡为主要特征的疾病.果蝇以其独特的分子遗传学优势成为研究人类神经退行性疾病的理想模型.通过对果蝇模型的研究不仅可以揭示神经退行性疾病发生的细胞分子通路,还可以研究对疾病有调控作用的基因及其表达产物,寻找可能的药物作用靶点并进行药物筛选,为防治人类神经退行性疾病提供新的方法和有效的药物.     

Search for Drosophila genes encoding a conserved domain present in the achaete-scute complex and myc proteins

Summary Several genes of the achaete-scute complex (ASC) of Drosophila melanogaster encode a 60 amino acids long conserved domain which shares a significant homology with a region of the vertebrate myc proteins. Based on these results, the existence of a family of Drosophila genes that would share both this conserved domain and the neurogenic function of the AS-C has been postulated. To test this proposal, we have searched a D. melanogaster genomic library with a probe that encodes the conserved domain. Only under very low stringency hybridization conditions, clones not belonging to the AS-C cross-hybridized with the probe. Those that gave the strongest signals were characterized. Sequencing of the cross-hybridizing regions showed that they had no significant homology with the conserved domain, the sequence similarity extending at the most for 37 nucleotides. Although our results do not conclusively disprove the existence of a family of AS-C-like genes, they indicate that the conservation of the domain would be lower than that found for shared motifs in other families of Drosophila developmental genes.     

Metabolic pools differ among ecologically diverse Drosophila species

Studies of the genetic mechanisms underlying metabolic storage have focused on a few model organisms. Although very fruitful, these studies have not allowed for the examination of mechanisms across a phylogenetic spectrum. The exploration of natural patterns of metabolic pool size variation across species will help us to better understand the genetics of metabolic adaptation.We examined the metabolic pools size (triglyceride, glycogen and protein) at two ages in 12 Drosophila species with distinctly different ecologies for which complete genome sequences (for 11 of the 12 species) are known. Overall, there were significant differences across species for all three pools, while age and sex appear to affect some metabolic pools more than others. After correcting for the phylogenetic relatedness of the species used, we observed no association between triglyceride and glycogen content. Although within species these two pools sometimes are correlated, at a larger phylogenetic scale control of triglyceride and glycogen contents may have been shaped independently by natural selection.     

RagA和Nprl2在果蝇肠道发育中的调节作用关系

动物胃肠道是食物消化和营养吸收器官,对机体健康至关重要。果蝇与哺乳动物的肠道在细胞组成、遗传调控等方面高度相似,是研究肠道发育的良好模型。体外培养细胞中的研究发现,Nprl2通过作用于Rag GTPase,抑制雷帕霉素靶点复合物1(target of rapamycin complex 1,TORC1)的活性,参与细胞代谢的调节。前期报道nprl2突变果蝇具有前胃增大、消化能力降低等肠道衰老相关表型。但对于Nprl2是否通过Rag GTPase调控肠道发育等方面尚不清楚。为了探究Rag GTPase在Nprl2调控果蝇肠道发育中的作用,本研究利用遗传杂交结合免疫荧光等方法对RagA敲减和nprl2突变果蝇的肠道形态、肠道细胞组成等方面进行研究。发现单独敲减RagA可以引起肠变粗、前胃增大等表型,敲减RagA能挽救nprl2突变体中肠道变细、分泌型细胞减少的表型,但并不能挽救nprl2突变体中前胃增大的表型。以上结果表明,RagA在肠道发育中发挥重要作用,Nprl2通过作用于Rag GTPase调节肠道细胞分化和肠道形态,但Nprl2对前胃发育和肠道的消化功能的调节可能通过不依赖于Rag GTPase的机制实现。     

Functional interactions between the gene tetanic and the Shaker gene complex of Drosophila

Different phenotypes associated with the tetanic (tta) mutation such as appendage contraction, maternal effect and low viability and fertility are enhanced by one extra dose of the Shaker gene complex (ShC). The tta mutation is lethal with two extra doses of ShC. In addition, tta embryos have a defective nervous system. In this paper, I analyse the interaction between tta and ShC to gain insight into their relationship. Aneuploid analysis suggests that the lethality is due to an interaction of the tta mutation with the maternal effect (ME) region of this gene complex. Mutations in the ME region of ShC partially suppress this interaction. Trans-heterozygous combinations of MEI[l(1)305] and MEIII [l(1)459] mutations causes dominant lethality in a tta background. Trans-heterozygous combinations of an MEII [l(1)1359] mutation with the cited MEI and MEIII mutations are lethal in a tta background. Double mutant combinations and gene dosage experiments, suggest that tta also interacts with the viable (V) region of ShC. These specific genetic interactions indicate that tta and the ME and V regions of ShC are functionally related. These results, together with the previous electrophysiological, molecular and biochemical studies on these mutants suggest an interaction at the protein level. Thus, in the case of the V region, the tta gene product may modulate the activity of the K⁺ channels encoded in this region. Furthermore, the extreme dosage sensitivity of the interaction between tta and ShC suggests a stoichiometric requirement for the different gene products involved, which might be physically associated and form heteromultimers.     

Functional relationships between genes of the Shaker gene complex of Drosophila

Different mutations belonging to the HLI and HLII complementation groups of the haplolethal (HL) region of the Shaker complex (ShC) are described. The HLI complementation group includes viable (hdp), recessive lethals [l(1)1614], semidominant lethals [l(1)8384] and dominant lethals [l(1)5051,l(1)9916, l(1)13193], lack-of-function alleles that affect nervous system, cuticle and muscle development. The HLI complementation group encodes troponin I. HLII lack-of-function mutations [l(1)174 and l(l)4058] affect nervous system development. The semidominant lethal HLI mutation 1(1)8384 shows differential complementation with other mutations in the ME and HL regions of ShC. Thus, heterozygous combinations of l(1)8384 with ME mutations l(1)162 and l(1)387 are poorly viable. The same phenomenon is observed for heterozygotes of l(1)8384 with HL mutations l(1)1199, l(1)2288 and l(1)3014. These specific interactions indicate the existence of functional relationships among the genetic elements of ShC. The implications for the understanding of the functional organization of ShC are discussed.     

Electron microscope immunolocation of gap junctions in Drosophila

Gap junction immunolocation was carried out in thin sections of Lowicryl K4M-embedded Drosophila imaginal wing discs using an affinity-purified polycolonal anti-18 kD gap junction protein anitbody and a colloidal gold-conjugated secondary antibody. Colloidal gold labelling was predominantly associated with obliquely-sectioned gap junctions, the ends of junctional profiles and other regions in which the adjacent junctional membranes were separated or distorted. The pattern of staining suggests that the determinant recognized by the antibody is relatively inaccessible, probably with a topological location in the transmembrane or extracellular domain of the membrane-spanning connexin protein.     

果蝇产卵行为的偏好和可塑性实验模型

我们用经典的Sherrington模型构建了一个以食物环境为输入,果蝇产卵行为为输出的神经行为学模型,并且对这个模型的敏感性以及可塑性进行了探索性研究．通过给果蝇提供不同的食物成分和浓度,我们发现,果蝇在不同浓度的食物上产卵量有明显偏好差异,并表现出很好的敏感性和稳定性．而当阻断了果蝇的嗅觉感受神经元后,产卵的浓度偏好受到了影响．另一方面,我们用经典条件化的学习方式对果蝇的产卵行为进行训练后,发现果蝇也可以学会将光照条件和产卵行为偶联起来．这也证明了这个模型具有很好的可塑性．这个模型将为今后进一步研究果蝇食物偏好、产卵行为、条件化学习等的神经和分子机制奠定良好的基础．     

葡萄园果蝇的发生及综合防治研究进展

果蝇因种类多、分布广、寄主广、繁殖力强,世代历期短,近年已成为葡萄的重要害虫之一。葡萄果蝇幼虫不仅蛀食果实,导致果实逐渐软化以致变褐色,还能导致微生物的二次侵染,诱发酸腐病,严重影响葡萄的品质和产量。现已发现危害葡萄的果蝇有7种,其中以黑腹果蝇为优势种,其次为斑翅果蝇和叔白颜果蝇。在山东地区,7月初是斑翅果蝇和叔白颜果蝇的发生高峰期,而黑腹果蝇发生高峰期为8-9月上旬。就不同葡萄品种来说,黑腹果蝇成虫对4个葡萄品种巨峰、马奶、无核白和红提的嗜好程度无显著差异,幼虫对红提的嗜好程度显著高于巨峰、马奶和无核白;斑翅果蝇和叔白颜果蝇对于金手指等早熟品种以及果皮较薄的葡萄品种具有更强的趋性。本文依据葡萄园主要果蝇的种类、生物特征、生活习性、发生规律和危害习性,并从农业防治、物理防治、化学防治和生物防治等方面总结分析了其综合防治措施,以期为葡萄园果蝇的可持续控制提供理论和技术支持。     

Phenotypic suppression of the Drosophila mitochondrial disease-like mutant tko by duplication of the mutant gene in its natural chromosomal context

A mutation in the Drosophila gene technical knockout (tko^25t), encoding mitoribosomal protein S12, phenocopies human mitochondrial disease. We isolated three spontaneous X-dominant suppressors of tko^25t (designated Weeble), exhibiting almost wild-type phenotype and containing overlapping segmental duplications including the mutant allele, plus a second mitoribosomal protein gene, mRpL14. Ectopic, expressed copies of tko^25t and mRpL14 conferred no phenotypic suppression. When placed over a null allele of tko, Weeble retained the mutant phenotype, even in the presence of additional transgenic copies of tko^25t. Increased mutant gene dosage can thus compensate the mutant phenotype, but only when located in its normal chromosomal context.     

Regulation of Krüppel expression in the anlage of the Malpighian tubules in the Drosophila embryo

The expression of most Drosophila segmentation genes is not limited to the early blastoderm stage, when the segmental anlagen are determined. Rather, these genes are often expressed in a variety of organs and tissues at later stages of development. In contrast to the early expression, little is known about the regulatory interactions that govern the later expression patterns. Among other tissues, the central gap gene Krüppel is expressed and required in the anlage of the Malpighian tubules at the posterior terminus of the embryo. We have studied the interaction of Krüppel with other terminal genes. The gap genes tailles and huckebein, which repress Krüppel in the central segmentation domain, activate Krüppel expression in the posterior Malpighian tubule domain. The opposite effect on the posterior Krüppel expression is achieved by the interposition of another factor, the homeotic gene fork head, which is not involved in the control of the central domain. In addition, Krüppel activates different genes in the Malpighian tubules than in the central domain. Thus, both the regulation and the function of Krüppel in the Malpighian tubules differ strikingly from its role in segmentation.