Removal of the Bloom Syndrome DNA Helicase Extends the Utility of Imprecise Transposon Excision for Making Null Mutations in Drosophila

Witsell, Alice; Kane, Daniel P.; Rubin, Sarah; McVey, Mitch

doi:10.1534/genetics.109.108472

Cited by 17 publications

(20 citation statements)

References 42 publications

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“…The Minos element was remobilized by crossing Mi(ET1)CG17350 MB01546 flies with P{hsILMiT} flies that provide a Minos transposase source driven by a heat-shock promoter. To improve deletion rate, we used a genetic background carrying a mutation of the mus309 gene, which increases both the number and size of the flanking genomic DNA deletions induced by the excision of Minos elements (Witsell et al, 2009). The mus309 gene encodes a DNA helicase involved in homology-directed repairs of double-stand breaks that typically occur after transposon excision.…”

Section: Fon Excisionsmentioning

confidence: 99%

Coagulation and survival in Drosophila melanogaster fondue mutants

Bajzek¹,

Rice²,

Andreazza³

et al. 2012

Journal of Insect Physiology

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Section: Fon Excisionsmentioning

confidence: 99%

Coagulation and survival in Drosophila melanogaster fondue mutants

Bajzek¹,

Rice²,

Andreazza³

et al. 2012

Journal of Insect Physiology

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“…It is estimated that the proportion ranges from 35 to 75% for all recovery events (Voelker et al, 1984;O'Brochta et al, 1991;Witsell et al, 2009). Considering that in certain cases we need to create a deletion of a specific size or in a precisely defined region to disrupt a given gene through imprecise excision, the frequency should be dramatically lower.…”

Section: Resultsmentioning

confidence: 99%

“…Furthermore, besides inducing single P-element transposition, we can also induce simultaneous mobilization of multiple P-elements to delete the internal sequence (Parks et al, 2004). Additionally, Witsell et al (2009Witsell et al ( , 2010 recently demonstrated that it can increase the percentage of imprecise excision and overall size of flanking deletion during either P or Minos element transposition, when the transposition is performed in the mus309, which encodes DmBlm, a RecQ DNA helicase involved in DNA repair, mutant background. These approaches enhance the efficient desired deletion of large DNA fragment.…”

Section: Resultsmentioning

confidence: 99%

Gene knockout by inducing P-element transposition in Drosophila

2013

Genet. Mol. Res.

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ABSTRACT. The P-element has been successfully used in germline transformation to create transgenic flies and as an insertion mutagenesis agent to disrupt genes. Moreover, P-element can also be used to knockout genes that are near the insertion sites by inducing its imprecise transposition. In this article, P-element insertion lines were crossed with transposase expression fly to recover the transposon, and the deletion of flanking sequence, which was created by imprecise excision, was detected by PCR. Through this method, null alleles of seven genes that spread over three major chromosomes (X, second, third) were generated in Drosophila melanogaster. Results show that the frequency of flanking deletions is expected to be 1%, and it is enough to pick up at least one ideal deletion line from 200 independent recovery lines in general. These data suggest that although the frequency of disrupted gene varied greatly, from 0.13 to 2.34%, gene knockout by inducing P-element transposition appears to be a feasible and effective strategy, compared to the complicated process of gene targeting based on homologous recombination.

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“…In our experiments, we found that 1.5–3.6% of excision events extended to a nearby polymorphic site. The frequency of such excisions can be increased by inhibiting the pairing between the transposable element chromosome and its homolog via a chromosome deficiency (14), or by screening in a mus 309 mutant background that lacks the Bloom syndrome helicase, thus increasing the frequency and size of the deletions generated from P -element and minos excisions (15). However, both these schemes involve considerable extra breeding.…”

Section: Resultsmentioning

confidence: 99%

“…The frequency of such imprecise events varies from locus to locus (1 in 5 to 1 in 100 excision events) (1,11), and the frequency of imprecise excision can be increased dramatically in some specific genetic backgrounds or by inhibiting pairing between the transposable element chromosome and its homolog (14,15). Flies carrying a visibly marked [e.g., white + ( w + )] transposable element inserted into or near a gene of interest are crossed with flies containing a stable source of transposase.…”

Section: Introductionmentioning

confidence: 99%

Identification and Mapping of Induced Chromosomal Deletions using Sequence Polymorphisms

2010

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One of the many advantages of Drosophila melanogaster as a model organism is the relative ease with which gene deletions can be generated by imprecise excision of transposon insertions. Here, we describe a simple, fast, and efficient method of screening for single-gene excision events that is not biased by prior assumptions of the mutant phenotype. DNA sequence polymorphisms were used as co-dominant electrophoretic markers to identify candidate deletions in a single generation, and to delimit the breakpoints to within 0.5-1 kb, thereby rapidly identifying deficiencies that affect only the gene of interest. In addition, we used polymorphism profiling to map existing deficiencies. The method can also be applied to map the extent of deletions generated by x-rays and to identify targeted mutations generated by engineered zinc-finger nucleases in Drosophila and other polymorphic model organisms (e.g., zebrafish, mouse, Caenorhabditis elegans).

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Removal of the Bloom Syndrome DNA Helicase Extends the Utility of Imprecise Transposon Excision for Making Null Mutations in Drosophila

Cited by 17 publications

References 42 publications

Coagulation and survival in Drosophila melanogaster fondue mutants

Coagulation and survival in Drosophila melanogaster fondue mutants

Gene knockout by inducing P-element transposition in Drosophila

Identification and Mapping of Induced Chromosomal Deletions using Sequence Polymorphisms

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