scholarly journals P element insertions and rearrangements at the singed locus of Drosophila melanogaster.

Genetics ◽  
1988 ◽  
Vol 119 (1) ◽  
pp. 75-83
Author(s):  
H Roiha ◽  
G M Rubin ◽  
K O'Hare
Keyword(s):  
Drosophila Melanogaster ◽  
High Frequency ◽  
The Other ◽  
Hybrid Dysgenesis ◽  
P Element ◽  
Wild Type ◽  
Tandem Arrangement ◽  
P Elements

Abstract DNA from the singed gene of Drosophila melanogaster was isolated using an inversion between a previously cloned P element at cytological location 17C and the hypermutable allele singed-weak. Five out of nine singed mutants examined have alterations in their DNA maps in this region. The singed locus is a hotspot for mutation during P-M hybrid dysgenesis, and we have analyzed 22 mutations induced by P-M hybrid dysgenesis. All 22 have a P element inserted within a 700-bp region. The precise positions of 10 P element insertions were determined and they define 4 sites within a 100-bp interval. During P-M hybrid dysgenesis, the singed-weak allele is destabilized, producing two classes of phenotypically altered derivatives at high frequency. In singed-weak, two defective P elements are present in a "head-to-head" or inverse tandem arrangement. Excision of one element results in a more extreme singed bristle phenotype while excision of the other leads to a wild-type bristle phenotype.

scholarly journals Molecular analysis of an unstable P element insertion at the singed locus of Drosophila melanogaster: evidence for intracistronic transposition of a P element.

Genetics ◽  
1988 ◽  
Vol 119 (1) ◽  
pp. 85-94
Author(s):  
R S Hawley ◽  
R A Steuber ◽  
C H Marcus ◽  
R Sohn ◽  
D M Baronas ◽  
...  
Keyword(s):  
Drosophila Melanogaster ◽  
Detailed Analysis ◽  
Chromosome Aberration ◽  
Sister Chromatid ◽  
High Frequency ◽  
P Element ◽  
Wild Type ◽  
P Elements ◽  
Element Insertion ◽  
Inverted Orientation

Abstract In a companion study, a number of P element insertions into the singed locus were characterized. Here is reported a detailed analysis of the structure and mutability of another P element insertion at sn, known as sncm. Under conditions which mobilize P elements, sncm mutates at high frequency to both wild-type (sn+) and to a much more extreme allele (snext). Wild-type revertants appear to represent precise or nearly precise excisions of the P element. Certainly two, and most likely all five, of the snext alleles studied result from the insertion of a duplicate copy of this P element into a nearby site in an inverted orientation. We propose a model in which both the sn+ and snext mutational events can be explained by excision of the P element from one chromatid followed by reintegration into the sister chromatid at a nearby site (intracistronic transposition). Finally, it is shown that the snext alleles are themselves unstable and the structure of a resulting chromosome aberration is examined.

scholarly journals A COMPARISON OF MUTATION RATES FOR SPECIFIC LOCI AND CHROMOSOME REGIONS IN DYSGENIC HYBRID MALES OF DROSOPHILA MELANOGASTER

Genetics ◽  
1984 ◽  
Vol 106 (1) ◽  
pp. 85-94
Author(s):  
Michael J Simmons ◽  
John D Raymond ◽  
Nancy A Johnson ◽  
Thomas M Fahey
Keyword(s):  
Drosophila Melanogaster ◽  
X Chromosome ◽  
The Other ◽  
Hybrid Dysgenesis ◽  
P Element ◽  
Mutation Rates ◽  
P Elements ◽  
White Locus ◽  
Insertion Mutations ◽  
Chromosome Regions

ABSTRACT The mutation rates of specific loci and chromosome regions were estimated for two types of dysgenic hybrid males. These came from crosses between P or Q males and M females in the P-M system of hybrid dysgenesis. The M × P hybrids were the more mutable for each of the loci and chromosome regions tested. The Beadex locus was highly mutable in these hybrids but did not mutate at all in the sample of gametes from the M × Q hybrids. The singed locus had 75% of the mutability of Beadex in the M × P hybrids; it was also mutable in the M × Q hybrids. The white locus was only slightly mutable in the M × P hybrids and not at all mutable in the M × Q hybrids. The mutations in singed and white probably arose from the insertion of P elements into these loci; the mutations at Beadex probably involved the action of a P element located near this locus on the X chromosome of the P strain that was used in the experiments. Mutations in two chromosome regions, one including the zeste-white loci and the other near the miniature locus, were much more frequent in the M × P hybrids than in the M × Q hybrids. These mutations also probably arose from P element insertions. The implication is that insertion mutations occur infrequently in the M × Q hybrids, possibly because most of the P elements they carry are defective. In M × P hybrids, there is variation among loci with respect to P elements mutagenesis, indicating that P elements possess a degree of insertional specificity.

scholarly journals A particular P-element insertion is correlated to the P-induced hybrid dysgenesis repression in Drosophila melanogaster

1992 ◽  
Vol 60 (1) ◽  
pp. 15-24 ◽  
Author(s):  
Dominique Higuet ◽  
Dominique Anxolabéhére ◽  
Danielle Nouaud
Keyword(s):  
Drosophila Melanogaster ◽  
Promoter Activity ◽  
Hybrid Dysgenesis ◽  
P Element ◽  
P Elements ◽  
Element Insertion ◽  
Element Number

SummaryTransposable P elements in Drosophila melanogaster cause hybrid dysgenesis if their mobility is not repressed. The ability to regulate the dysgenic activity of the P elements depends on several mechanisms, one of which hypothesized that a particular deleted P element (the KP element) results in a non-susceptibility which is biparentally transmitted. In this study totally nonsusceptible lines, and susceptible lines containing exclusively KP elements (IINS2 line and IIS2 line) were isolated from a M' strain. We show that non-susceptibility is correlated with a particular insertion of one KP element located at the cytological site 47D1. The repression ability of the GD sterility is determined by a recessive chromosomal factor, and cannot be due to the KP-element number. Here the repression of the P mobility is associated with reduction of the P transcripts and the inhibition of P promoter activity.

scholarly journals Molecular cloning of suppressor of sable, a Drosophila melanogaster transposon-mediated suppressor.

1986 ◽  
Vol 6 (5) ◽  
pp. 1520-1528 ◽  
Author(s):  
D Y Chang ◽  
B Wisely ◽  
S M Huang ◽  
R A Voelker
Keyword(s):  
Drosophila Melanogaster ◽  
Dna Sequences ◽  
Insertion Site ◽  
Hybrid Dysgenesis ◽  
P Element ◽  
Dna Transformation ◽  
Wild Type ◽  
Induced Mutations ◽  
X Ray ◽  
Element Insertion

A hybrid dysgenesis-induced allele [su(s)w20] associated with a P-element insertion was used to clone sequences from the su(s) region of Drosophila melanogaster by means of the transposon-tagging technique. Cloned sequences were used to probe restriction enzyme-digested DNAs from 22 other su(s) mutations. None of three X-ray-induced or six ethyl methanesulfonate-induced su(s) mutations possessed detectable variation. Seven spontaneous, four hybrid dysgenesis-induced, and two DNA transformation-induced mutations were associated with insertions within 2.0 kilobases (kb) of the su(s)w20 P-element insertion site. When the region of DNA that included the mutational insertions was used to probe poly(A)+ RNAs, a 5-kb message was detected in wild-type RNA that was present in greatly reduced amounts in two su(s) mutations. By using strand-specific probes, the direction of transcription of the 5-kb message was determined. The mutational insertions lie in DNA sequences near the 5' end of the 5-kb message. Three of the seven spontaneous su(s) mutations are associated with gypsy insertions, but they are not suppressible by su(Hw).

scholarly journals P-element-induced control mutations at the r gene of Drosophila melanogaster.

1985 ◽  
Vol 5 (10) ◽  
pp. 2567-2574 ◽  
Author(s):  
S Tsubota ◽  
M Ashburner ◽  
P Schedl
Keyword(s):  
Drosophila Melanogaster ◽  
The Other ◽  
P Element ◽  
Female Sterility ◽  
R Gene ◽  
Temporal Expression ◽  
Base Pairs ◽  
P Elements ◽  
Adult Females ◽  
Regulatory Mutations

The P-M hybrid dysgenesis system was used to produce five putative regulatory mutations at the rudimentary locus, r. All five mutations were the result of insertions at the 5' end of the gene, upstream of the proposed start of transcription. All of the mutants displayed a leaky wing phenotype, and four of the mutants showed an uncoupling of the wing and female-sterility phenotypes, suggesting that they altered the normal spatial and temporal expression of the r gene. Four of the insertions were P elements. The fifth insertion, which was larger than an intact P element, consisted of a small P element connected to non-P-element DNA. Two of the mutants produced very little r transcript in adult females and were clustered 80 to 150 base pairs upstream of the start of transcription. The other three mutants had higher levels of r transcript in adult females and were clustered 440 to 500 base pairs upstream of the start of transcription. All of the data suggest that the insertions are in a 5' noncoding region of the r gene involved in the control of its spatial and temporal expression.

scholarly journals Repression of P element-mediated hybrid dysgenesis in Drosophila melanogaster.

Genetics ◽  
1990 ◽  
Vol 124 (3) ◽  
pp. 663-676 ◽  
Author(s):  
M J Simmons ◽  
J D Raymond ◽  
K E Rasmusson ◽  
L M Miller ◽  
C F McLarnon ◽  
...  
Keyword(s):  
Drosophila Melanogaster ◽  
Maternal Effect ◽  
Gonadal Dysgenesis ◽  
De Novo ◽  
Inbred Lines ◽  
Hybrid Dysgenesis ◽  
P Element ◽  
P Elements ◽  
Hybrid Offspring ◽  
Element Movement

Abstract Inbred lines derived from a strain called Sexi were analyzed for their abilities to repress P element-mediated gonadal dysgenesis. One line had high repression ability, four had intermediate ability and two had very low ability. The four intermediate lines also exhibited considerable within-line variation for this trait; furthermore, in at least two cases, this variation could not be attributed to recurring P element movement. Repression of gonadal dysgenesis in the hybrid offspring of all seven lines was due primarily to a maternal effect; there was no evidence for repression arising de novo in the hybrids themselves. In one of the lines, repression ability was inherited maternally, indicating the involvement of cytoplasmic factors. In three other lines, repression ability appeared to be determined by partially dominant or additive chromosomal factors; however, there was also evidence for a maternal effect that reduced the expression of these factors in at least two of the lines. In another line, repression ability seemed to be due to recessive chromosomal factors. All seven lines possessed numerous copies of a particular P element, called KP, which has been hypothesized to produce a polypeptide repressor of gonadal dysgenesis. This hypothesis, however, does not explain why the inbred Sexi lines varied so much in their repression abilities. It is suggested that some of this variation may be due to differences in the chromosomal position of the KP elements, or that other nonautonomous P elements are involved in the repression of hybrid dysgenesis in these lines.

scholarly journals The relationship between P elements and male recombination in Drosophila melanogaster.

Genetics ◽  
1990 ◽  
Vol 124 (2) ◽  
pp. 317-329
Author(s):  
A Duttaroy ◽  
M McCarron ◽  
K Sitaraman ◽  
G Doughty ◽  
A Chovnick
Keyword(s):  
Drosophila Melanogaster ◽  
Hot Spot ◽  
The Other ◽  
P Element ◽  
Male Recombination ◽  
P Elements ◽  
Selective System ◽  
Element Mobilization ◽  
The Relationship ◽  
Initial Binding

Abstract P element dysgenesis associated male recombination in Drosophila was examined with a selective system focused upon 5% of the standard female genetic map divided into eight recombination segments. We found no correspondence between P element mobilization events and recombination in males in the intervals monitored. We defined two adjacent short genetic and molecular regions, one devoid of male recombination and the other acting as a "hot spot" for exchange in the absence of supporting P element insertion and excision activity. These data suggest that, even in the presence of mobilizing P elements, transposase may be active at non-P element sites, and that the genome may harbor sequences ranging from highly responsive to completely unresponsive to transposase action. A viewpoint is presented wherein P elements, with sequences that bind transposase, serve to focus the recombination action of transposase to encompass a region of DNA radiating outward from the initial binding site. We suggest that this region is measured in terms of chromosomal segments rather than limited to P element sequences.

scholarly journals Genetic and molecular analysis of repression in the P–M system of hybrid dysgenesis in Drosophila melanogaster

1991 ◽  
Vol 57 (3) ◽  
pp. 213-226 ◽  
Author(s):  
Ellen M. Heath ◽  
Michael J. Simmons
Keyword(s):  
Drosophila Melanogaster ◽  
Maternal Effects ◽  
X Chromosome ◽  
Gonadal Dysgenesis ◽  
Inbred Lines ◽  
Hybrid Dysgenesis ◽  
P Element ◽  
P Elements ◽  
Two Generations ◽  
Highly Correlated

SummaryTwelve inbred lines derived from an M′ strain of Drosophila melanogaster were used to study the repression of P-element-mediated hybrid dysgenesis. Initial assessments indicated that the lines differed in the ability to repress gonadal dysgenesis, and that this ability was highly correlated with the ability to repress snw hypermutability. Later assessments indicated that most of the lines with low or intermediate repression potential evolved to a state of higher repression potential; however, Southern analyses failed to reveal significant changes in the array of genomic P elements that could account for this evolution. In addition, none of the lines possessed the incomplete P element known as KP, which has been proposed to explain repression in some D. melanogaster strains. One of the lines maintained intermediate repression potential throughout the period of study (52 generations), indicating that the intermediate condition was not intrinsically unstable. Genetic analyses demonstrated that in some of the lines, repression potential was influenced by factors that were inherited maternally through at least two generations; however, these factors were not as influential as those in a classic P cytotype strain. Additional tests with a dysgenesis-inducing X chromosome called T-5 indicated that repression itself was mediated by a combination of maternal effects and paternally inherited factors that were expressed after fertilization. These tests also suggested that in some circumstances, the P transposase, or its message, might be transmitted through the maternal cytoplasm.

scholarly journals Genetic Transformation of Drosophila melanogaster with an Autonomous P Element: Phenotypic and Molecular Analyses of Long-Established Transformed Lines

Genetics ◽  
1987 ◽  
Vol 115 (4) ◽  
pp. 711-723
Author(s):  
Stephen B Daniels ◽  
Stephen H Clark ◽  
Margaret G Kidwell ◽  
Arthur Chovnick
Keyword(s):  
Drosophila Melanogaster ◽  
The Other ◽  
P Element ◽  
Stable Configuration ◽  
Phenotypic Properties ◽  
Molecular Analyses ◽  
P Elements ◽  
Regulatory Ability ◽  
Rate Of Increase

ABSTRACT Following transformation of a Drosophila melanogaster true M strain with an autonomous P element, six lines were established and monitored for their molecular and phenotypic properties during a 4-yr period. The number of P elements increased with time in all the lines but the rate of increase differed among lines. Furthermore, degenerate elements arose in each of the lines during propagation. By the end of the 4th yr, the total number of elements in every line was similar to that of a very strong P strain.—At the phenotypic level, all of the transformed lines evolved high P activity, but only three developed complete or nearly complete regulatory ability. The other three lines attained only intermediate levels of regulation over the 4-yr period. One of these lines was particularly noteworthy. Although it contained as many as 55 P elements per genome (20 of which were potentially complete) and had extremely high P activity potential, it continued to exhibit limited regulatory ability. In addition, when females of this line were maintained at high temperatures, the ability to suppress P activity was even further diminished. A strain with this combination of molecular and phenotypic properties, in an apparently stable configuration, has not been previously described.—The results are discussed in the context of the possible role of degenerate elements in regulating P element expression.

scholarly journals Hybrid dysgenesis in Drosophila simulans associated with a rapid global invasion of the P-element

2015 ◽  
Author(s):  
Tom Hill ◽  
Christian Schlotterer ◽  
Andrea J Betancourt
Keyword(s):  
Drosophila Melanogaster ◽  
Related Species ◽  
Hybrid Dysgenesis ◽  
P Element ◽  
Genetic Element ◽  
P Elements ◽  
Transcriptomic Data ◽  
Selfish Genetic Element ◽  
Element Free ◽  
Global Invasion

In a classic example of the invasion of a species by a selfish genetic element, the P-element was horizontally transferred from a distantly related species into Drosophila melanogaster. Despite causing 'hybrid dysgenesis', a syndrome of abnormal phenotypes that include sterility, the P-element spread globally in the course of a few decades in D. melanogaster. Until recently, its sister species, including D. simulans, remained P-element free. Here, we find a hybrid dysgenesis-like phenotype in the offspring of crosses between D. simulans strains collected in different years; a survey of 181 strains shows that around 20% of strains induce hybrid dysgenesis. Using genomic and transcriptomic data, we show that this dysgenesis-inducing phenotype is associated with the invasion of the P-element. To characterize this invasion temporally and geographically, we survey 631 D. simulans strains collected on three continents and over 27 years for the presence of the P-element. We find that the D. simulans P-element invasion occurred rapidly and nearly simultaneously in the regions surveyed, with strains containing P-elements being rare in 2006 and common by 2014. Importantly, as evidenced by their resistance to the hybrid dysgenesis phenotype, strains collected from the latter phase of this invasion have adapted to suppress the worst effects of the P-element.

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