Transposition bursts in analysis of repeated mutations in unstable strains of Drosophila melanogaster

The phenomenon of transposition memory was earlier demonstrated for the cut locus and mdg4. This work has been aimed at finding out, in what way the transposition memory can be realized. An unstable stock cmMR17ctMRpN17 was analysed which had high frequency of double cm+ct+ reversions and cmMRctMRpN repeated mutations. A series of five such transpositions could be followed. The ctMRpN17 mutation is a result of insertion at the cut locus mdg4 with the jockey element inserted within it. As seen from in situ hybridization analysis, transitions to the normal phenotype correlate, as a rule, with the excision of mdg4 and the jockey from the cut locus. Analysis of distribution of mdg1, mdg2, mdg3 and jockey on the X-chromosome of unstable revertants and repeated mutants indicated that not only transpositions of mdg4 and jockey, but also those of all mobile elements tested occur. So, we propose that the transposition memory in our genetic system is manifested in the process of transposition bursts.     

The controlling element Ds at the Shrunken locus in Zea mays: structure of the unstable sh-m5933 allele and several revertants

We have analyzed the structure of the Shrunken (Sh) locus in a strain containing an unstable recessive mutation, sh-m5933, caused by the transposable controlling element Dissociation (Ds). We have also analyzed nine spontaneous Sh revertant alleles. The sh-m5933 allele contains a 30 kb insertion at the Sh locus, as well as a duplication that includes part of the insertion and the Sh locus sequence on the 5' side of the insertion site. The revertants continue to show Ds-mediated chromosome breakage at the Sh locus, have an intact Sh locus from which the insertion has been excised, and retain the duplication. One of the nine revertant alleles has a 2 kb deletion at the junction between the Sh locus and the insertion sequence in the duplicated segment of the locus. The revertant also shows a temporal change in the pattern of somatic chromosome breakage, implicating the junction sequence as the site of Ds-mediated chromosome breakage.     

Interactions between su(Hw)-binding regions in neighboring y2 and scD1 alleles hinder trans-activation of the y2 promoter by yellow enhancers located on a homologous chromosome

The phenomenon of transvection has been well characterized for the yellow locus in Drosophila. Enhancers of a promoterless yellow locus in one homologous chromosome can activate the yellow promoter in the other when its own enhancers are blocked by the su(Hw) insulator introduced by the gypsy retrotransposon. Insertion of another gypsy into the neighboring scute locus hinders transvection presumably owing to disruption of chromosomal synapsis between the yellow alleles. We determined the sequences of gypsy required for inhibition of transvection. Two partial revertants of the scD1 mutation were obtained in which transvection between the yellow alleles was restored. Both sc revertants were generated by deletion of nine of the twelve su(Hw)-binding sites of gypsy inserted into the scute locus. This result suggests that the su(Hw) region is required for an interaction between two gypsy elements that disrupts trans activation of the yellow promoter by enhancers located on the homologous chromosome.     

Regional mutagenesis using Dissociation in maize

We describe genetic screens, molecular methods and web resources newly available to utilize Dissociation (Ds) as an insertional mutagen in maize. Over 1700 Ds elements have been distributed throughout the maize genome to serve as donor elements for local or regional mutagenesis. Two genetic screens are described to identify Ds insertions in genes-of-interest (goi). In scheme I, Ds is used to generate insertion alleles when a recessive reference allele is available. A Ds insertion will enable the cloning of the target gene and can be used to create an allelic series. In scheme II, Ds insertions in a goi are identified using a PCR-based screen to identify the rare insertion alleles among a population of testcross progeny. We detail an inverse PCR protocol to rapidly amplify sequences flanking Ds insertion alleles and describe a high-throughput 96-well plate-based DNA extraction method for the recovery of high-quality genomic DNA from seedling tissues. We also describe several web-based tools for browsing, searching and accessing the genetic materials described. The development of these Ds insertion lines promises to greatly accelerate functional genomics studies in maize.     

A collection of sequenced and mapped Ds transposon insertion sites in Arabidopsis thaliana

Insertional mutagenesis is a powerful tool for generating knockout mutations that facilitate associating biological functions with as yet uncharacterized open reading frames (ORFs) identified by genomic sequencing or represented in EST databases. We have generated a collection of Dissociation(Ds) transposon lines with insertions on all 5 Arabidopsischromosomes. Here we report the insertion sites in 260 independent single-transposon lines, derived from four different Ds donor sites. We amplified and determined the genomic sequence flanking each transposon, then mapped its insertion site by identity of the flanking sequences to the corresponding sequence in the Arabidopsisgenome database. This constitutes the largest collection of sequence-mapped Ds insertion sites unbiased by selection against the donor site. Insertion site clusters have been identified around three of the four donor sites on chromosomes 1 and 5, as well as near the nucleolus organizers on chromosomes 2 and 4. The distribution of insertions between ORFs and intergenic sequences is roughly proportional to the ratio of genic to intergenic sequence. Within ORFs, insertions cluster near the translational start codon, although we have not detected insertion site selectivity at the nucleotide sequence level. A searchable database of insertion site sequences for the 260 transposon insertion sites is available at http://sgio2.biotec.psu.edu/sr. This and other collections of Arabidopsislines with sequence-identified transposon insertion sites are a valuable genetic resource for functional genomics studies because the transposon location is precisely known, the transposon can be remobilized to generate revertants, and the Ds insertion can be used to initiate further local mutagenesis.     

Characterization of pre-insertion loci of de novo L1 insertions

The human Long Interspersed Element-1 (LINE-1) and the Short Interspersed Element (SINE) Alu comprise 28% of the human genome. They share the same L1-encoded endonuclease for insertion, which recognizes an A+T-rich sequence. Under a simple model of insertion distribution, this nucleotide preference would lead to the prediction that the populations of both elements would be biased towards A+T-rich regions. Genomic L1 elements do show an A+T-rich bias. In contrast, Alu is biased towards G+C-rich regions when compared to the genome average. Several analyses have demonstrated that relatively recent insertions of both elements show less G+C content bias relative to older elements. We have analyzed the repetitive element and G+C composition of more than 100 pre-insertion loci derived from de novo L1 insertions in cultured human cancer cells, which should represent an evolutionarily unbiased set of insertions. An A+T-rich bias is observed in the 50 bp flanking the endonuclease target site, consistent with the known target site for the L1 endonuclease. The L1, Alu, and G+C content of 20 kb of the de novo pre-insertion loci shows a different set of biases than that observed for fixed L1s in the human genome. In contrast to the insertion sites of genomic L1s, the de novo L1 pre-insertion loci are relatively L1-poor, Alu-rich and G+C neutral. Finally, a statistically significant cluster of de novo L1 insertions was localized in the vicinity of the c-myc gene. These results suggest that the initial insertion preference of L1, while A+T-rich in the initial vicinity of the break site, can be influenced by the broader content of the flanking genomic region and have implications for understanding the dynamics of L1 and Alu distributions in the human genome.     

Genetic and molecular analyses of vgal: a spontaneous and unstable mutation at the vestigial locus in Drosophila melanogaster

We describe herein, a new unstable mutant of the vestigial locus, isolated from a French natural population. From this mutant vestigial almost (vgal) wild-type flies (vgal+) and extreme vg phenotypes (vge) arose spontaneously without genomic shock. The occurrence of vgal+ or vge alleles depends mostly on the breeding temperature; vgal+ revertants arose principally at low temperature (21 degrees C) and vge at 28 degrees C. These events occur mainly in the male germ line and the phenomenon appears to be premeiotic. Our results with in situ hybridization experiments and Southern blots show that the vgal mutation is due to a 2 kb DNA insertion, which is a deleted hobo element. Genetic and molecular analyses show that two distinct events may underly the wild-type revertants. One is the excision of the resident hobo element, the other a further deletion (about 300 bp in the example characterized herein). The vge mutation is probably due to a deletion of vestigial sequences flanking the hobo insertion.     

Reversion of Q beta RNA phage mutants by homologous RNA recombination.

Q beta phage RNAs with inactivating insertion (8-base) or deletion (17-base) mutations within their replicase genes were prepared from modified Q beta cDNAs and transfected into Escherichia coli spheroplasts containing Q beta replicase provided in trans by a resident plasmid. Replicase-defective (Rep-) Q beta phage produced by these spheroplasts were detected as normal-sized plaques on lawns of cells containing plasmid-derived Q beta replicase, but were unable to form plaques on cells lacking this plasmid. When individual Rep- phage were isolated and grown to high titer in cells containing plasmid-derived Q beta replicase, revertant (Rep+) Q beta phage were obtained at a frequency of ca. 10(-8). To investigate the mechanism of this reversion, a point mutation was placed into the plasmid-derived Q beta replicase gene by site-directed mutagenesis. Q beta mutants amplified on cells containing the resultant plasmid also yielded Rep+ revertants. Genomic RNA was isolated from several of the latter phage revertants and sequenced. Results showed that the original mutation (insertion or deletion) was no longer present in the phage revertants but that the marker mutation placed into the plasmid was now present in the genomic RNAs, indicating that recombination was one mechanism involved in the reversion of the Q beta mutants. Further experiments demonstrated that the 3' noncoding region of the plasmid-derived replicase gene was necessary for the reversion-recombination of the deletion mutant, whereas this region was not required for reversion or recombination of the insertion mutant. Results are discussed in terms of a template-switching model of RNA recombination involving Q beta replicase, the mutant phage genome, and plasmid-derived replicase mRNA.     

Genetic control of the hexose phosphate transport system of Escherichia coli: mapping of deletion and insertion mutations in the uhp region.

The Escherichia coli transport system responsible for the accumulation of a number of sugar phosphates is encoded by the uhp region and is induced by external, but not intracellular, glucose 6-phosphate. To delineate the genetic organization of the uhp region, a total of 225 independent point, deletion, and transposon Tn10 insertion mutations were collected. Mutations conferring the Uhp-phenotype were obtained on the basis of their resistance to fosfomycin and their inability to use sugar phosphates as carbon source. Deletions of uhp sequences were obtained as a consequence of imprecise excision of Tn10 insertions located on either side of uhp. Conjugal crosses between these deletions and the point of insertion mutations allowed determination of the relative order of the uhp alleles and of the deletion endpoints. Specialized lambda transducing phages carrying a uhpT-lac operon fusion and various amounts of adjacent uhp material were isolated and used as genetic donors. Results from these crosses corroborated those obtained in the conjugal crosses. The locations of the mutant alleles were compared with the regulatory properties of Uhp+ revertants of these alleles. This comparison suggested the existence of at least three genes in which mutation yields the Uhp-phenotype. Mapping experiments were consistent with the gene order pyrE-gltS-uhpTRA-ilvB, where uhpT encodes the transport system and uhpR and uhpA are regulatory genes whose products are necessary for proper uhp regulation.     

In Vivo Analysis of Saccharomyces Cerevisiae Cox2 mRNA 5''-Untranslated Leader Functions in Mitochondrial Translation Initiation and Translational Activation

We have used mutational and revertant analysis to study the elements of the 54-nucleotide COX2 5'-untranslated leader involved in translation initiation in yeast mitochondria and in activation by the COX2 translational activator, Pet111p. We generated a collection of mutants with substitutions spanning the entire COX2 5'-UTL by in vitro mutagenesis followed by mitochondrial transformation and gene replacement. The phenotypes of these mutants delimit a 31-nucleotide segment, from -16 to -46, that contains several short sequence elements necessary for COX2 5'-UTL function in translation. The sequences from -16 to -47 were shown to be partially sufficient to promote translation in a foreign context. Analysis of revertants of both the series of linker-scanning alleles and two short deletion/insertion alleles has refined the positions of several possible functional elements of the COX2 5'-untranslated leader, including a putative RNA stem-loop structure that functionally interacts with Pet111p and an octanucleotide sequence present in all S. cerevisiae mitochondrial mRNA 5'-UTLs that is a potential rRNA binding site.     

Genetic events associated with an insertion mutation in yeast

The his4-912 mutation shares similar genetic properties with mutations promoted by procaryotic insertion elements. This mutation lacks all three his4 functions. Many different classes of His+ revertants have been obtained from his4-912. The most frequent class of His+ revertants results from a site mutation which confers a cold-sensitive His- phenotype. Other classes of revertants contain translocations (one between chromosomes I and III and the other between chromosomes III and XII), a transposition of the his4 region to chromosome VIII, and an inversion of most of the left arm of chromosome III. Another class contains deletions which extend from his4-912 into the his4 region. In each of these classes of revertants, the his4 region is closely linked to the chromosomal aberration. Many of these revertants contain additional changes in chromosome structure (duplication, deletion and aneuploidy) that are unrelated to the reversion of his4-912 to His4+.     

Site-selected insertional mutagenesis of tomato with maizeAc andDs elements

Site-selected insertion (SSI) is a PCR-based technique which uses primers located within the transposon and a target gene for detection of transposon insertions into cloned genes. We screened tomato plants bearing single or multiple copies of maizeAc orDs transposable elements for somatic insertions at one close-range target and two long-range targets. Eight close-rangeDs insertions near the right border of the T-DNA were recovered. Sequence analysis showed a precise junction between the transposon and the target for all insertions. Two insertions in separate plants occurred at the same site, but others appeared dispersed in the region of the right T-DNA border with no target specificity. However, insertions showed a preference for one orientation of the transposon. Use of plants with multipleAc (HiAc) orDs (HiDs) elements allowed detection of somatic insertions at two single-copy genes,PG (polygalacturonase) andDFR (dihydroflavonol 4-reductase). Certain HiDs plants showed much higher rates of insertion intoPG than others. Insertions inPG andDFR were found throughout the gene regions monitored and, with the exception of one insertion inPG, the junctions between transposon and target were exact. SSI analysis of progeny from the HiDs parents revealed that in some cases the tendency to incur high levels of somatic insertions inPG was inherited. Inheritance of this character is an indication that SSI could be used to direct a search for germinalPG insertions in tomato.     

Easel, a gypsy LTR-retrotransposon in the Salmonidae

Despite the close similarities between retroviruses and the gypsy/Ty3 group of LTR-retrotransposons their host ranges are largely distinct: the retroviruses are found only in vertebrates, whereas the gypsy LTR-retrotransposons are almost exclusively restricted to invertebrates, plants and fungi. Here we report the amplification by PCR, and characterisation, of one of the first LTR-retrotransposons to be discovered in vertebrates - in several members of the piscine family Salmonidae. Phylogenetic analysis of this retroelement, termed easel, indicates that it is probably a phylogeneticaly basal member of the gypsy group of LTR-retrotransposons and occurs in some of the same species from which retroviruses have previously been isolated. Thus some members of the Salmonidae are the first organisms known to harbour both retroviral branch elements and the gypsy LTR-retrotransposon branch elements. This creates an overlap in the host ranges of the two retroelement families.     

Analysis of the Om(1d) Locus in Drosophila Ananassae

From the ca;px stock, which is the progenitor of Om mutants caused by insertions of the tom retrotransposon, 50 kb of genomic DNA including the Om(1D) locus was cloned by tom tagging and chromosome walking. Southern blot analyses of six Om(1D) mutants exposed one or two tom elements inserted at five nonrandom sites within an 18-kb distal segment of the restriction map; the phenotypic uniformity between these mutants was not affected by variations in the position, number or orientation of their inserts. Spontaneous revertants or more extreme derivatives of Om(1D) alleles were nonlinearly associated with losses or gains of tom inserts. Seven of eight radiation induced derivatives of Om(1D) mutants had one breakpoint of a chromosome rearrangement in polytene section 13A which includes the Om(1D) locus. Two Om(1D) derivatives, a spontaneous revertant and an induced extreme allele, were associated with overlapping deficiencies which define a region that is likely to contain the Om(1D) coding seguences proximal to the tom insertion sites. Incidental results confirm the previously indicated homology of the Om(1D) locus with the Bar locus of Drosophila melanogaster.