The transposable element hobo in Drosophila melanogaster and related species

Abstract P element enhancer trapping has become an indispensable tool in the analysis of the Drosophila melanogaster genome. However, there is great variation in the mutability of loci by these elements such that some loci are relatively refractory to insertion. We have developed the hobo transposable element for use in enhancer trapping and we describe the results of a hobo enhancer trap screen. In addition, we present evidence that a hobo enhancer trap element has a pattern of insertion into the genome that is different from the distribution of P elements in the available database. Hence, hobo insertion may facilitate access to genes resistant to P element insertion.

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Locomotion is not influenced by denticle number in larvae of the fruit fly Drosophila melanogaster

Canadian Journal of Zoology ◽

10.1139/z05-027 ◽

2005 ◽

Vol 83 (2) ◽

pp. 368-371 ◽

Cited By ~ 1

Author(s):

Mark J Fitzpatrick ◽

Evelyn Szewczyk

Keyword(s):

Drosophila Melanogaster ◽

Related Species ◽

Natural Variation ◽

Fruit Fly ◽

Fruit Flies ◽

Negative Effects ◽

Closely Related Species ◽

Locomotory Performance ◽

Locomotion Speed

Denticles are small projections on the underside of larval fruit flies that are used to grip the substrate while crawling. Previous studies have shown that (i) there is natural variation in denticle number and pattern between Drosophila melanogaster (Meigen, 1830) and several closely related species and (ii) mutations affecting denticle morphology have negative effects on locomotory performance. We hypothesized that there would be a correlation between denticle number and locomotory performance within populations of D. melanogaster. Despite finding considerable variation in denticle number, we found no correlation between denticle number and three measurements of larval locomotion: speed, acceleration, and absolute turning rate.

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Encapsulation ability: Are all Drosophila species equally armed? An investigation in the obscura group

Canadian Journal of Zoology ◽

10.1139/z09-046 ◽

2009 ◽

Vol 87 (7) ◽

pp. 635-641 ◽

Cited By ~ 19

Author(s):

S. Havard ◽

P. Eslin ◽

G. Prévost ◽

G. Doury

Keyword(s):

Drosophila Melanogaster ◽

Related Species ◽

Unusual Case ◽

Foreign Bodies ◽

Drosophila Subobscura ◽

Drosophila Species ◽

Drosophila Persimilis ◽

Obscura Group ◽

Encapsulation Ability

Unable to form cellular capsules around large foreign bodies, the species Drosophila subobscura Collin in Gordon, 1936 was previously shown devoid of lamellocytes, the capsule-forming hemocytes in Drosophila melanogaster Meigen, 1830. This unusual case of deficiency in encapsulation ability was remarkable enough to motivate further investigations in phylogenetically related species of the obscura group. Like D. subobscura, the species Drosophila azteca Sturtevant and Dobzhansky, 1936, Drosophila bifasciata Pomini, 1940, Drosophila guanche Monclus, 1976, Drosophila miranda Dobzhansky, 1935, Drosophila persimilis Dobzhansky and Epling, 1944, and Drosophila pseudoobcura Frovola and Astaurov, 1929 were found to be unable to encapsulate large foreign bodies and also to lack lamellocytes. Surprisingly, Drosophila affinis Sturtevant, 1916, Drosophila tolteca Patterson and Mainland, 1944, and Drosophila obscura Fallen, 1823 were capable of mounting cellular capsules, although their encapsulation abilities remained weak. These three species were free of lamellocytes but possessed small pools of never before described “atypical hemocytes” present in the hemolymph when capsules were formed.

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Structure of circular copies of the 412 transposable element present in Drosophila melanogaster tissue culture cells, and isolation of a free 412 long terminal repeat

Journal of Molecular Biology ◽

10.1016/0022-2836(84)90428-5 ◽

1984 ◽

Vol 180 (1) ◽

pp. 21-40 ◽

Cited By ~ 19

Author(s):

Barbara M. Shepherd ◽

David J. Finnegan

Keyword(s):

Tissue Culture ◽

Drosophila Melanogaster ◽

Long Terminal Repeat ◽

Transposable Element ◽

Terminal Repeat ◽

Culture Cells ◽

Tissue Culture Cells

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Direct determination of retrotransposon transposition rates in Drosophila melanogaster

Genetics Research ◽

10.1017/s0016672300032249 ◽

1994 ◽

Vol 63 (2) ◽

pp. 139-144 ◽

Cited By ~ 34

Author(s):

Sergey V. Nuzhdin ◽

Trudy F. C. Mackay

Keyword(s):

Drosophila Melanogaster ◽

Transposable Element ◽

Inbred Line ◽

Copy Number ◽

Direct Determination ◽

Hybridization Analysis ◽

Spontaneous Mutations ◽

Insertion Sites

SummaryRates of transposition and excision of the Drosophila melanogaster retrotransposon elements mdg3, 297, Doc, roo and copia were estimated directly, by in situ hybridization analysis of their cytological insertion sites in 31 replicates of a highly inbred line that had accumulated spontaneous mutations for approximately 160generations. Estimated transposition rates of Doc, roo and copia were, respectively, 4·2 × 10−5, 3·1 × 10−3 and 1·3 − 10−3; no transpositions of 297 nor mdg3 were observed. Rates of transposition of copia varied significantly among sublines. Excisions were only observed for roo elements, at a rate of 9·0 × 10−6 per element per generation. Copy number averaged over these element families increased 5·9 %; therefore, in these lines the magnitude of the forces opposing transposable element multiplication were weaker than transposition rates.

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An Analysis of Polygenes Affecting Wing Shape on Chromosome 2 inDrosophila melanogaster

Genetics ◽

10.1093/genetics/159.3.1045 ◽

2001 ◽

Vol 159 (3) ◽

pp. 1045-1057 ◽

Cited By ~ 5

Author(s):

Kenneth Weber ◽

Robert Eisman ◽

Shawn Higgins ◽

Lisa Morey ◽

April Patty ◽

...

Keyword(s):

Drosophila Melanogaster ◽

Transposable Element ◽

Genetic Effects ◽

Wing Shape ◽

Pleiotropic Effects ◽

Phenotypic Variance ◽

Chromosome 2 ◽

Additive Effects ◽

Chromosome Segments ◽

Small Additive

AbstractGenetic effects on an index of wing shape on chromosome 2 of Drosophila melanogaster were mapped using isogenic recombinants with transposable element markers. At least 10 genes with small additive effects are dispersed evenly along the chromosome. Many interactions exist, with only small net effects in homozygous recombinants and little effect on phenotypic variance. Heterozygous chromosome segments show almost no dominance. Pleiotropic effects on leg shape are only minor. At first view, wing shape genes form a rather homogeneous class, but certain complexities remain unresolved.

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