Publications (16)74.11 Total impact
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Article: Toward a complete Drosophila deficiency kit.
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ABSTRACT: Targeted chromosome engineering has facilitated the development of new deletions that now cover virtually the entire genome of Drosophila, providing greater precision and resolution.Genome biology 03/2012; 13(3):149. · 6.63 Impact Factor -
Article: In vivo analysis of proteomes and interactomes using Parallel Affinity Capture (iPAC) coupled to mass spectrometry.
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ABSTRACT: Affinity purification coupled to mass spectrometry provides a reliable method for identifying proteins and their binding partners. In this study we have used Drosophila melanogaster proteins triple tagged with Flag, Strep II, and Yellow fluorescent protein in vivo within affinity pull-down experiments and isolated these proteins in their native complexes from embryos. We describe a pipeline for determining interactomes by Parallel Affinity Capture (iPAC) and show its use by identifying partners of several protein baits with a range of sizes and subcellular locations. This purification protocol employs the different tags in parallel and involves detailed comparison of resulting mass spectrometry data sets, ensuring the interaction lists achieved are of high confidence. We show that this approach identifies known interactors of bait proteins as well as novel interaction partners by comparing data achieved with published interaction data sets. The high confidence in vivo protein data sets presented here add new data to the currently incomplete D. melanogaster interactome. Additionally we report contaminant proteins that are persistent with affinity purifications irrespective of the tagged bait.Molecular & Cellular Proteomics 03/2011; 10(6):M110.002386. · 7.40 Impact Factor -
Article: Modeling serpin conformational diseases in Drosophila melanogaster.
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ABSTRACT: Transgenic Drosophila melanogaster have been used to model both the physiological and pathological behavior of serpins. The ability to generate flies expressing serpins and to rapidly assess associated phenotypes contributes to the power of this paradigm. While providing a whole-organism model of serpinopathies the powerful toolkit of genetic interventions allows precise molecular dissection of important biological pathways. In this chapter, we summarize the contribution that flies have made to the serpin field and then describe some of the experimental methods that are employed in these studies. In particular, we will describe the generation of transgenic flies, the assessment of phenotypes, and the principles of how to perform a genetic screen.Methods in enzymology 01/2011; 499:227-58. · 1.90 Impact Factor -
Article: Neighbourhood continuity is not required for correct testis gene expression in Drosophila.
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ABSTRACT: It is now widely accepted that gene organisation in eukaryotic genomes is non-random and it is proposed that such organisation may be important for gene expression and genome evolution. In particular, the results of several large-scale gene expression analyses in a range of organisms from yeast to human indicate that sets of genes with similar tissue-specific or temporal expression profiles are clustered within the genome in gene expression neighbourhoods. While the existence of neighbourhoods is clearly established, the underlying reason for this facet of genome organisation is currently unclear and there is little experimental evidence that addresses the genomic requisites for neighbourhood organisation. We report the targeted disruption of three well-defined male-specific gene expression neighbourhoods in the Drosophila genome by the synthesis of precisely mapped chromosomal inversions. We compare gene expression in individuals carrying inverted chromosomes with their non-inverted but otherwise identical progenitors using whole-transcriptome microarray analysis, validating these data with specific quantitative real-time PCR assays. For each neighbourhood we generate and examine multiple inversions. We find no significant differences in the expression of genes that define each of the neighbourhoods. We further show that the inversions spatially separate both halves of a neighbourhood in the nucleus. Thus, models explaining neighbourhood organisation in terms of local sequence interactions, enhancer crosstalk, or short-range chromatin effects are unlikely to account for this facet of genome organisation. Our study challenges the notion that, at least in the case of the testis, expression neighbourhoods are a feature of eukaryotic genome organisation necessary for correct gene expression.PLoS Biology 01/2010; 8(11):e1000552. · 11.45 Impact Factor -
Article: The multiple-wing-hairs gene encodes a novel GBD-FH3 domain-containing protein that functions both prior to and after wing hair initiation.
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ABSTRACT: The frizzled signaling/signal transduction pathway controls planar cell polarity (PCP) in both vertebrates and invertebrates. Epistasis experiments argue that in the Drosophila epidermis multiple wing hairs (mwh) acts as a downstream component of the pathway. The PCP proteins accumulate asymmetrically in pupal wing cells where they are thought to form distinct protein complexes. One is located on the distal side of wing cells and a second on the proximal side. This asymmetric protein accumulation is thought to lead to the activation of the cytoskeleton on the distal side, which in turn leads to each cell forming a single distally pointing hair. We identified mwh as CG13913, which encodes a novel G protein binding domain-formin homology 3 (GBD-FH3) domain protein. The Mwh protein accumulated on the proximal side of wing cells prior to hair formation. Unlike planar polarity proteins such as Frizzled or Inturned, Mwh also accumulated in growing hairs. This suggested that mwh had two temporally separate functions in wing development. Evidence for these two functions also came from temperature-shift experiments with a temperature-sensitive allele. Overexpression of Mwh inhibited hair initiation, thus Mwh acts as a negative regulator of the cytoskeleton. Our data argued early proximal Mwh accumulation restricts hair initiation to the distal side of wing cells and the later hair accumulation of Mwh prevents the formation of ectopic secondary hairs. This later function appears to be a feedback mechanism that limits cytoskeleton activation to ensure a single hair is formed.Genetics 09/2008; 180(1):219-28. · 4.01 Impact Factor -
Article: The DrosDel deletion collection: a Drosophila genomewide chromosomal deficiency resource.
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ABSTRACT: We describe a second-generation deficiency kit for Drosophila melanogaster composed of molecularly mapped deletions on an isogenic background, covering approximately 77% of the Release 5.1 genome. Using a previously reported collection of FRT-bearing P-element insertions, we have generated 655 new deletions and verified a set of 209 deletion-bearing fly stocks. In addition to deletions, we demonstrate how the P elements may also be used to generate a set of custom inversions and duplications, particularly useful for balancing difficult regions of the genome carrying haplo-insufficient loci. We describe a simple computational resource that facilitates selection of appropriate elements for generating custom deletions. Finally, we provide a computational resource that facilitates selection of other mapped FRT-bearing elements that, when combined with the DrosDel collection, can theoretically generate over half a million precisely mapped deletions.Genetics 10/2007; 177(1):615-29. · 4.01 Impact Factor -
Article: Principles of genome evolution in the Drosophila melanogaster species group.
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ABSTRACT: That closely related species often differ by chromosomal inversions was discovered by Sturtevant and Plunkett in 1926. Our knowledge of how these inversions originate is still very limited, although a prevailing view is that they are facilitated by ectopic recombination events between inverted repetitive sequences. The availability of genome sequences of related species now allows us to study in detail the mechanisms that generate interspecific inversions. We have analyzed the breakpoint regions of the 29 inversions that differentiate the chromosomes of Drosophila melanogaster and two closely related species, D. simulans and D. yakuba, and reconstructed the molecular events that underlie their origin. Experimental and computational analysis revealed that the breakpoint regions of 59% of the inversions (17/29) are associated with inverted duplications of genes or other nonrepetitive sequences. In only two cases do we find evidence for inverted repetitive sequences in inversion breakpoints. We propose that the presence of inverted duplications associated with inversion breakpoint regions is the result of staggered breaks, either isochromatid or chromatid, and that this, rather than ectopic exchange between inverted repetitive sequences, is the prevalent mechanism for the generation of inversions in the melanogaster species group. Outgroup analysis also revealed evidence for widespread breakpoint recycling. Lastly, we have found that expression domains in D. melanogaster may be disrupted in D. yakuba, bringing into question their potential adaptive significance.PLoS Biology 07/2007; 5(6):e152. · 11.45 Impact Factor -
Article: The ribosomal protein genes and Minute loci of Drosophila melanogaster.
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ABSTRACT: Mutations in genes encoding ribosomal proteins (RPs) have been shown to cause an array of cellular and developmental defects in a variety of organisms. In Drosophila melanogaster, disruption of RP genes can result in the 'Minute' syndrome of dominant, haploinsufficient phenotypes, which include prolonged development, short and thin bristles, and poor fertility and viability. While more than 50 Minute loci have been defined genetically, only 15 have so far been characterized molecularly and shown to correspond to RP genes. We combined bioinformatic and genetic approaches to conduct a systematic analysis of the relationship between RP genes and Minute loci. First, we identified 88 genes encoding 79 different cytoplasmic RPs (CRPs) and 75 genes encoding distinct mitochondrial RPs (MRPs). Interestingly, nine CRP genes are present as duplicates and, while all appear to be functional, one member of each gene pair has relatively limited expression. Next, we defined 65 discrete Minute loci by genetic criteria. Of these, 64 correspond to, or very likely correspond to, CRP genes; the single non-CRP-encoding Minute gene encodes a translation initiation factor subunit. Significantly, MRP genes and more than 20 CRP genes do not correspond to Minute loci. This work answers a longstanding question about the molecular nature of Minute loci and suggests that Minute phenotypes arise from suboptimal protein synthesis resulting from reduced levels of cytoribosomes. Furthermore, by identifying the majority of haplolethal and haplosterile loci at the molecular level, our data will directly benefit efforts to attain complete deletion coverage of the D. melanogaster genome.Genome biology 02/2007; 8(10):R216. · 6.63 Impact Factor -
Article: Culture of Drosophila: the laboratory setup.
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ABSTRACT: INTRODUCTIONSince its introduction to experimental biology more than 90 years ago, Drosophila melanogaster has proved to be an easily cultured and robust laboratory animal. Although culture techniques and the ways in which flies are handled have changed over the years, if he were to enter a fly room today, T.H. Morgan would clearly recognize what is being done, and why. This article provides the basic methods for the laboratory culture of D. melanogaster. The intelligent culture of Drosophila requires a basic understanding of the life cycle of this fly. For this reason, we begin by describing the life cycle of Drosophila and then present information for setting up a fly laboratory.CSH protocols. 01/2007; 2007:pdb.ip34. -
Article: Maintenance of a Drosophila laboratory: general procedures.
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ABSTRACT: INTRODUCTIONThis article provides a general introduction to keeping Drosophila stocks, making and scoring crosses, mutagenesis, and controlling diseases in the laboratory.CSH protocols. 01/2007; 2007:pdb.ip35. -
Article: Drosophila crinkled, mutations of which disrupt morphogenesis and cause lethality, encodes fly myosin VIIA.
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ABSTRACT: Myosin VIIs provide motor function for a wide range of eukaryotic processes. We demonstrate that mutations in crinkled (ck) disrupt the Drosophila myosin VIIA heavy chain. The ck/myoVIIA protein is present at a low level throughout fly development and at the same level in heads, thoraxes, and abdomens. Severe ck alleles, likely to be molecular nulls, die as embryos or larvae, but all allelic combinations tested thus far yield a small fraction of adult "escapers" that are weak and infertile. Scanning electron microscopy shows that escapers have defects in bristles and hairs, indicating that this motor protein plays a role in the structure of the actin cytoskeleton. We generate a homology model for the structure of the ck/myosin VIIA head that indicates myosin VIIAs, like myosin IIs, have a spectrin-like, SH3 subdomain fronting their N terminus. In addition, we establish that the two myosin VIIA FERM repeats share high sequence similarity with only the first two subdomains of the three-lobed structure that is typical of canonical FERM domains. Nevertheless, the approximately 100 and approximately 75 amino acids that follow the first two lobes of the first and second FERM domains are highly conserved among myosin VIIs, suggesting that they compose a conserved myosin tail homology 7 (MyTH7) domain that may be an integral part of the FERM domain or may function independently of it. Together, our data suggest a key role for ck/myoVIIA in the formation of cellular projections and other actin-based functions required for viability.Genetics 12/2004; 168(3):1337-52. · 4.01 Impact Factor -
Article: The DrosDel collection: a set of P-element insertions for generating custom chromosomal aberrations in Drosophila melanogaster.
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ABSTRACT: We describe a collection of P-element insertions that have considerable utility for generating custom chromosomal aberrations in Drosophila melanogaster. We have mobilized a pair of engineered P elements, p[RS3] and p[RS5], to collect 3243 lines unambiguously mapped to the Drosophila genome sequence. The collection contains, on average, an element every 35 kb. We demonstrate the utility of the collection for generating custom chromosomal deletions that have their end points mapped, with base-pair resolution, to the genome sequence. The collection was generated in an isogenic strain, thus affording a uniform background for screens where sensitivity to genetic background is high. The entire collection, along with a computational and genetic toolbox for designing and generating custom deletions, is publicly available. Using the collection it is theoretically possible to generate >12,000 deletions between 1 bp and 1 Mb in size by simple eye color selection. In addition, a further 37,000 deletions, selectable by molecular screening, may be generated. We are now using the collection to generate a second-generation deficiency kit that is precisely mapped to the genome sequence.Genetics 07/2004; 167(2):797-813. · 4.01 Impact Factor -
Article: Genetic and Phenotypic Analysis of the Genes of the Elbow‐no‐Ocelli Region of Chromosome 2L of Dvosophila Melanogaster
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ABSTRACT: The elbow locus is found to be two genes elA and elB, each of which has a distinct phenotype when mutant. Mutations of the elA gene have a strong phenotype where the wing is markedly disrupted. Mutations of elB are weak, mainly affecting the alula and the wing bristles. The two genes are dominant enhancers of each other. Homozygous deletion of the complete elbow region results in lethality. Situated between the elbow genes is the pupal gene and a locus which when deleted causes a crippled leg phenotype. This locus may be a control region for elbow. Immediately adjacent on the proximal side of elA is the no-ocelli locus. The phenotypes of noc alleles vary from extreme, where the ocelli and associated bristles are absent, to weak where these structures are disrupted. The various noc phenotypes are associated with genetically distinct gene regions, mutations of which act as enhancers of each other. Alleles of el and noc show partial failure of complementation, heterozygotes having weak el or weak noc phenotypes. Alleles of both these genes interact with the antimorphic noc allele Sco.Hereditas 05/2004; 126(1):67 - 75. · 0.79 Impact Factor -
Article: A new hybrid rescue allele in Drosophila melanogaster.
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ABSTRACT: Crosses of Drosophila melanogaster females to males of its sibling species Drosophila simulans, Drosophila mauritiana and Drosophila sechellia produce no sons and daughters that are viable only at low temperatures. We describe here a novel rescue allele Df(1)EP307-1-2 isolated on the basis of its suppression of high temperature hybrid female lethality. Df(1)EP307-1-2 also rescues hybrid males to the pharate adult stage, the same stage at which it is lethal to D. melanogaster pure species males. Molecular analysis indicates that Df(1)EP307-1-2 is associated with a deletion of about 61 kb in the 9D region of the X chromosome. The structure of Df(1)EP307-1-2 suggests that it was formed by a process similar to P-element induced male recombination.Genetica 04/2004; 120(1-3):261-6. · 2.15 Impact Factor -
Article: A rapidly evolving MYB-related protein causes species isolation in Drosophila.
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ABSTRACT: Matings among different species of animals or plants often result in sterile or lethal hybrids. Identifying the evolutionary forces that create hybrid incompatibility alleles is fundamental to understanding the process of speciation, but very few such alleles have been identified, particularly in model organisms that are amenable to experimental manipulation. We report here the cloning of the first, to our knowledge, Drosophila melanogaster gene involved in hybrid incompatibilities, Hybrid male rescue (Hmr). Hmr causes lethality and female sterility in hybrids among D. melanogaster and its sibling species. We have found that Hmr encodes a protein with homology to a family of MYB-related DNA-binding transcriptional regulators. The HMR protein has evolved both amino acid substitutions and insertions and deletions at an extraordinarily high rate between D. melanogaster and its sibling species, including in its predicted DNA-binding domain. Our results suggest that hybrid lethality may result from disruptions in gene regulation, and we also propose that rapid evolution may be a hallmark of speciation genes in general.Proceedings of the National Academy of Sciences 05/2003; 100(9):5302-7. · 9.68 Impact Factor -
Article: Genetic and Cytogenetic Analysis of the 43AE Region Containing the Segment Polarity Gene costa and the Cellular Polarity Genes prickle and spiny-legs in Drosophila melanogaster
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ABSTRACT: A cytogenetic analysis of the 43A-E region of chromosome 2 in Drosophila melanogaster is presented. Within this interval 27 complementation groups have been identified by extensive F2 screens and ordered by deletion mapping. The region includes the cellular polarity genes prickle and spiny-legs, the segmentation genes costa and torso, the morphogenetic locus sine oculis and is bounded on its distal side by the eye-color gene cinnabar. In addition 19 novel lethal complementation groups and two semi-lethal complementation groups with morphogenetic escaper phenotypes are described.
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Institutions
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2003–2012
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University of Cambridge
- Department of Genetics
Cambridge, ENG, United Kingdom
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