Development of an efficient two-element transposon tagging system in Arabidopsis thaliana

Summary Modified Ac and Ds elements, in combination with dominant markers (to facilitate monitoring of excision, reinsertion and segregation of the elements) were introduced into Arabidopsis thaliana ecotype Landsberg erecta. The frequencies of somatic and germinal transactivation of the Ds elements were monitored using a streptomycin resistance assay. Transactivation was significantly higher from a stable Ac (sAc) carrying a 537 by deletion of the CpG-rich 5 untranslated leader of the transposase mRNA than from a wild-type sAc. However, substitution of the central 1.77 kb of the transposase open reading frame (ORF) with a hygromycin resistance marker did not alter the excision frequency of a Ds element. -Glucuronidase (GUS) or iaaH markers were linked to the transposase source to allow the identification of plants in which the transposase source had segregated away from the transposed Ds element, eliminating the possibility of somatic or germinal re-activation. Segregation of the excision marker, Ds and sAc was monitored in the progeny of plants showing germinal excision of Ds. 29% of the plants inheriting the excision marker carried a transposed Ds element.     

Developing a transposon tagging system to isolate rust-resistance genes from flax

Summary A line of flax, homozygous for four genes controlling resistance to flax rust, was transformed with T-DNA vectors carrying the maize transposable elements Ac and Ds to assess whether transposition frequency would be high enough to allow transposon tagging of the resistance genes. Transposition was much less frequent in flax than in Solanaceous hosts such as tobacco, tomato and potato. Transposition frequency in callus tissue, but not in plants, was increased by modifications to the transposase gene of Ac. Transactivation of the excision of a Ds element was achieved by expressing a cDNA copy of the Ac transposase gene from the Agrobacterium T-DNA 2 promoter. Progeny of three plants transformed with Ac and 15 plants transformed with Ds and the transposase gene, were examined for transposition occurring in the absence of selection. Transposition was observed in the descendants of only one plant which contained at least nine copies of Ac. Newly transposed Ac elements were observed in 25–30% of the progeny of some members of this family and one active Ac element was located 28.8 (SE=6.3) map units from the L ⁶ rust-resistance gene. This family will be potentially useful in our resistance gene tagging program.     

A defined amino acid exchange close to he putative nucleotide binding site is responsible for an oxygen-tolerant variant of the Rhizobium meliloti NifA protein

Summary To study regulation of the (Ds) transposition process in heterologous plant species, the transposase gene of Ac was fused to several promoters that are active late during plant development. These promoters are the flower-specific chalcone synthase A promoter (CHS A), the anther-specific chalcone isomerase B promoter CHI B and the pollen-specific chalcone isomerase A₂ promoter CHI A₂. The modified transposase genes were introduced into a tobacco tester plant. This plant contains Ds stably inserted within the leader sequence of the hygromycin resistance (HPT II) gene. As confirmed with positive control elements, excision of Ds leads to the restoration of a functional HPT II gene and to a hygromycin resistant phenotype. No hygromycin resistance was observed in negative control experiments with Ac derivatives lacking 5 regulatory sequences. Although transactivation of Ds was observed after the introduction of transposase gene fusions in calli, excision in regenerated plants was observed only for the CHS A- or CHI B-transposase gene fusions. With these modified transposase genes, somatic excision frequencies were increased (68%) and decreased (22%), respectively, compared to the situation with the Ac element itself (38%). The shifts in transactivation frequencies were not associated with significant differences in the frequencies of germinally transmitted excision events (approximately 5%). The relative somatic stability of Ds insertions bearing the CHI B-transposase gene fusion suggests the usefulness of this activator element for transposon tagging experiments.     

Complementary DNA-DNA hybridization in Drosophila

Summary We have performed DNA-DNA hybridization experiments among several species of Drosophila using the evolutionarily conserved portion of the genome representing sequences coding for amino acids of proteins. This was done by using as tracer, radioactively labeled complementary DNA that was reverse transcribed from adult mRNA. We show that this procedure extends phylogenetically the distance over which the technique can be applied to fast-evolving groups such as Drosophila. The major phylogenetic conclusions are (1) the subgenus Sophophora is a monophyletic lineage; (2) within Sophophora the melanogaster subgroup is closer to the obscura group than either group is to the willistoni group; (3) the subgenus Drosophila is complex with most major lineages originating deep in the phylogeny; the subgenus may not be monophyletic; (4) as with most groups classically placed in Drosophila, the Hawaiian Drosophila originate early, supporting the notion that this lineage is older than the extant islands; and (5) the virilis/repleta lineage is monophyletic within Drosophila.On leave from the Dipartimento di Biologia, II Università di Roma Tor Vergata, Rome, Italy     

Replication analysis of plasmid DNAs injected into Drosophila embryos

From a shotgun collection of DNA fragments, isolated from Drosophila melanogaster, we selected sequences that function as autonomously replicating sequences (ARS) in the yeast Saccharomyces cerevisiae. To investigate the replicative potential of such sequences in Drosophila, five of these ARS elements and also the Adh gene of D. melanogaster, which has been described earlier to have ARS function in yeast, were microinjected into developing Drosophila eggs and analysed after reisolation from first instar larvae. As an assay for DNA replication, we determined the sensitivity of recovered plasmid DNA to restriction enzymes that discriminate between adenine methylation and nonmethylation. within the limits of detection our results show that none of the plasmids replicated two or more rounds. However, a fraction of all injected plasmid DNAs, including vector DNA, seems to replicate once. The same result was obtained for a DNA sequence from mouse that had been reported to have replication origin function in mouse tissue culture cells. We excluded the possibility that methylation of the plasmids is the reason for their inability to replicate. These results demonstrate that homologous and heterologous DNA sequences that drive replication of plasmids in cells of other species are not sufficient to fulfil this function in Drosophila embryos.by J.A. Huberman     

Neutral evolution of ten types of mariner transposons in the genomes of Caenorhabditis elegans and Caenorhabditis briggsae

Ten types of mariner transposable elements (232 individual sequences) are present in the completed genomic DNA sequence of Caenorhabditis elegans and the partial sequence of Caenorhabditis briggsae. We analyze these replicated instances of mariner evolution and find that elements of a type have evolved within their genomes under no selection on their transposase genes. Seven of the ten reconstructed ancestral mariners carry defective transposase genes. Selection has acted during the divergence of some ancestral elements. The neutrally-evolving mariners are used to analyze the pattern of molecular evolution in Caenorhabditis. There is a significant mutational bias against transversions and significant variation in rates of change across sites. Deletions accumulate at a rate of 0.034 events/bp per substitution/site, with an average size of 166 bp (173 gaps observed). Deletions appear to obliterate preexisting deletions over time, creating larger gaps. Insertions accumulate at a rate of 0.019 events/bp per substitution/site, with an average size of 151 bp (61 events). Although the rate of deletion is lower than most estimates in other species, the large size of deletions causes rapid elimination of neutral DNA: a mariners half-life (the time by which half an elements sequence should have been deleted) is ~0.1 subsitutions/site. This high rate of DNA deletion may explain the compact nature of the nematode genome. When this work was done, both authors were affiliated with the University of Illinois at Urbana-Champaign. Dr. Witherspoon is now working in the private sector, Dr. Robertson remains affiliated with the University of Illinois.     

Infrequent transposition of Ac in lettuce,Lactuca sativa

The maize transposable element Activator (Ac) is being used to develop a transposon mutagenesis system in lettuce, Lactuca sativa. Two constructs containing the complete Ac from the waxy-m7 locus of maize were introduced into lettuce and monitored for activity using Southern analysis and PCR amplification of the excision site. No transposition of Ac was detected in over 32 transgenic R₁ plants, although these constructs were known to provide frequent transposition in other species. Also, no transposition was observed in later generations. In subsequent experiments, transposition was detected in lettuce calli using constructs that allowed selection for excision events. In these constructs, the neomycin phosphotransferase II gene was interrupted by either Ac or Ds. Excision was detected as the ability of callus to grow on kanamycin. Synthesis of the transposase from the cDNA of Ac expressed from the T-DNA 2 promoter resulted in more frequent excision of Ds than was observed with the wild-type Ac. No excision was observed with Ds in the absence of the transposase. The excision events were confirmed by amplification of the excision site by PCR followed by DNA sequencing. Excision and reintegration were also confirmed by Southern analysis. Ac/Ds is therefore capable of transposition in at least calli of lettuce.     

Germinal Excision and Reinsertion Frequencies of the Mobile Element Ds Transposed from Two Unlinked T-DNA Loci in Tomato

Acceptor sites of unlinked transposed Ds element from two T-DNA loci in tomato were mapped. Experimental data obtained from TC₁ progeny testing were employed for estimation of germinal excision frequency (GEF) of Ds element and frequency of its reinsertion (FR). The donor T-DNAs 1481J and 1601D, containing a 35S:NPT transformation marker, a 35S:BAR or nos:BAR excision marker conferring phosphinothricine resistance and a Ds element in the 5 untranslated leader of the nos (or 35S): BAR gene, were located on chromosome 7 and 8, respectively. Ds transposition was induced by 105121 T-DNA carrying stabilized Ac (sAc) which provides a source of transposase and 2:GUS marker conferring -glucuronidase activity. Tomato plants harbouring the Ds in 1481J or 1601D locus and sAc were crossed and F₁D, were crossed individually as seed parents to wild-type plants to generate TC₁ progenies. TC₁ seed was germinated on phosphinothricine (Basta)-containing medium, and individual seedlings carrying a transposed Ds and lacking sAc were identified by PCR (to detect the Ds) on phosphinothricine resistant individuals that lacked -glucuronidase activity. From segregation ratio in TC₁ the germinal excision and reinsertion frequencies of the Ds element were estimated for individual F₁ plants. A total of 14560 TC₁ seedlings of 1481J and 16195 TC₁ seedlings of 1601D was analyzed. We observed high variation between individual plants as regards both GEF and FR despite of donor locus (1481J or 1601D), however, the average germinal excision frequencies as well as average frequencies of reinsertion were very similar for both donor loci: GEF_1481J = 24 %, GEF_1501D = 25 %, FR_1481J = 42 %, FR_1601D = 46 %.     

The organization,localization and nucleotide sequence of the histone genes of the midge Chironomus thummi

Several histone gene repeating units containing the genes for histones H1, H2A, H2B, H3 and H4 were isolated by screening a genomic DNA library from the midge Chironomus thummi ssp. thummi. The nucleotide sequence of one complete histone gene repeating unit was determined. This repeating unit contains one copy of each of the five histone genes in the order and orientation H3 H4 H2A H2B H1. The overall length is 6262 bp. The orientation, nucleotide sequence and inferred amino acid sequence as well as the chromosomal arrangement and localization are different from those reported for Drosophila melanogaster. The codon usage also shows marked differences between Chironomus and Drosophila. Thus the histone gene structure reported for Drosophila is not typical of all insects.by H. Jäckle     

RFLP variation in diploid and tetraploid alfalfa

Summary Alfalfa (Medicago sativa L.) is a major forage crop throughout the world. Although alfalfa has many desirable traits, continued breeding is required to incorporate pest resistances and other traits. We conducted this study to determine the amount of restriction fragment length polymorphism (RFLP) variability present within and between diploid and tetraploid alfalfa populations, and whether or not this variability is sufficient for construction of an RFLP map. Diploid plants from M. sativa ssp. falcata, ssp. coerulea, and ssp. sativa and tetraploid spp. sativa cultivars Apollo, Florida 77, and Spredor 2 were included. A total of 19 cDNA clones was probed onto genomic Southern blots containing DNA digested by EcoRI, HindIII, or BamHI. Phylogenetic trees were produced, based on parsimony analysis of shared restriction fragments. Evidence for extensive gene duplication was found; most probes detected complex patterns of restriction fragments. Large amounts of variation are present within all diploid subspecies. M. sativa ssp. falcata plants formed clusters distinct from ssp. sativa or ssp. coerulea plants, which were not distinctly clustered. Some M. sativa ssp. falcata plants were more similar to the other groups than to other plants within ssp. falcata. Variation among tetraploid cultivars showed that Florida 77 and Apollo had more similarities than either showed with Spredor 2. All three cultivars showed large within-population variation, with Apollo being the most diverse and Spredor 2 the least. Based on these results, development of an RFLP map at the diploid level appears possible. Also, differentiation of cultivars, particularly ones of divergent origin, seems possible based on RFLP patterns.     

A Family of Drosophila Genes Encoding quaking -Related Maxi-KH Domains

We recently identified a Drosophilagene, wings held out (who), that specifies a STAR(signal transduction and RNA activation) proteinexpressed within mesoderm and muscles. Genetic evidencesuggests that WHO regulates muscle development and functionin response to steroid hormone titer. who is related tothe mouse quaking gene, essential for embryogenesis andneural myelination, and gld-1, a nematode tumor suppressor gene necessary for oocytedifferentiation, both of which contain RNA bindingmaxi-KH domains presumed to link RNAmetabolism to cell signaling. To initiate a broaderstudy of Drosophila WHO related proteins we used degenerate primers encodingpeptides unique to maxi-KH domains to amplify thecorresponding genes. We recovered nine genes, allspecifying single maxi-KH domain proteins havingtripartite regions of similarity that extend over 200amino acids. One is located within the 54D chromosomesubdivision, and one within 58C, while the remainingseven are within the 58E subdivision. At least four of these STAR proteins are expressed in ageneral manner, suggesting that maxi-KH domains areemployed widely in Drosophila.     

Telomeres and P-element of Drosophila melanogaster contain sequences that replicate autonomously in Saccharomyces cerevisiae

Summary We have isolated restriction fragments from a shotgun collection of Drosophila DNA which function as autonomously replicating sequences (ARS) in Saccharomyces cerevisiae and hybridize with telomeric regions of the 2L, 2R, 4, and X chromosomes. In an independently obtained set of D. melanogaster clones five fragments hybridize in situ with telomeres and a number of internal sites. Two of them also contain ARSs. A Drosophila mobile P-element also possesses ARS activity in yeast.     

Does abscisic acid influence proline accumulation in stressed leaves?

Root treatments of barley (Hordeum distichum L.) plants with 10^-7 to 10^-4 M abscisic acid (ABA) caused an increase in proline content, especially at higher concentrations, within 2–3 h. Even 3 h after the removal of ABA from the medium the plants continued to accumulate proline. The higher the concentration of the ABA, the higher was the proline level at 6 h. When the highest ABA concentration, 10^-4 M, was tested with polyethylene glycol (PEG) (-5.0 bars) in the medium, the ABA treatment resulted in a higher proline content than in control plants. The treatments PEG alone and PEG + ABA resulted in heavy accumulation of proline, especially, 3 h after releasing the plants from the stress. The proline content in PEG+ABA-treated plants was always higher than plants treated with PGE or ABA alone. In peas (Pisum sativum L. cv Alaska) the same trend occurred although to a lesser degree. These findings indicate an influence of ABA on proline accumulation in water-stressed plants.Abbreviations ABA abscisic acid - PEG polyethylene glycol - RWC relative water content     

In vitro normal and variant development of t'ef (Eragrostis tef) spikelets

Spikelets of t'ef, Eragrostis tef were cultured from the pre-anthesis stage to seed maturation, although only a small proportion of these seeds germinated to produce adult plants. A liquid culture medium originally formulated for wheat spikelets was used and it is of interest that grass stigmas normally classified as dry function under these conditions. Varietal differences of response were observed and examples were found where although seed setting within the spikelet was less than under in vivo situation. The implications are considered for spikelet culture in an old genus such as Eragrostis where one species, E. tef, is recognised as conspicuously variable.     

Evolution of the response patterns to dietary carbohydrates and the developmental differentiation of gene expression of α-amylase in Drosophila

Intraspecific variation of -amylase activity in D. melanogaster and D. immigrans, which is distantly related to D. melanogaster, and interspecific variation of -amylase activity in 18 Drosophila species were examined. The amount of intraspecific variation of -amylase activities measured in terms of coefficient of variation in D. melanogaster and D. immigrans was one-half and one-tenth or less, respectively, of the interspecific variation in 18 Drosophila species. We also surveyed the response patterns of -amylase activity to dietary carbohydrates at the larval and adult stages. The levels of -amylase activity depended on both repression by dietary glucose (glucose repression) and induction by dietary starch (starch induction). In general, our data suggest that glucose repression was conserved among species at both stages while starch induction was mainly observed in larvae, although the degree of the response depended on species. In D. lebanonensis lebanonensis and D. serrata, larvae expressed electrophoretically different -amylase variants (isozymes) from those of adult flies. These results may suggest that the regulatory systems responsible both for the response to environment and developmental expression are different among species in Drosophila. Correspondence to: T. Yamazaki     

Phase-Specific Elements of the stringGene Regulatory Region in Drosophila melanogaster

The phases of the reporter gene expression controlled by different fragments of the string(stg) gene regulatory region were determined in Drosophilaneuroblasts by detection of -galactosidase activity and radioautography. In the D10 and D22 lines carrying the constructs pstg-E4.9 and pstg-E5.3, respectively, the reporter gene activity was detected in the G1 phase of the cell cycle. In the D12 and D20 lines (pstg-E6.4 and pstg-E2.6), no periodic expression was observed. The regulatory regions of the stgfrom lines D10 and D22 and that of Drosophilagene cyclin Dshared consensus aagaactttg, which was also expressed in the G1 phase. The phase-specific expression of the cell-cycle genes was compared in a model for the mitotic-wave cells of eye imaginal disk and neuroblasts of the nerve ganglia.