MEC: a transposable element from Chironomus thummi (diptera)

Insertional variability of four transposable elements and population structure of the midge Chironomus riparius (Diptera)

The dipteran Chironomus riparius is found across the entire Palearctic region; its larvae are among the most abundant macroinvertebrates inhabiting inland waterbodies. Chironomid larvae have been extensively used in ecotoxicological and cytogenetic research, but relatively little is known on the population structure of this species. Transposable elements (TEs) are DNA sequences that are capable of autonomous replication; the number and genomic location of TE insertions varies across individuals; this variability is increasingly being used in population studies. Several TEs had been characterized in Chironomids; this enabled the analysis of insertional variability of four different TEs in six natural populations of C. riparius from Italy, Bulgaria and Russia using a PCR-based method, transposon insertion display (TID). The method allows to obtain dominant markers, similar to AFLP. In all populations, TE insertions showed high individual polymorphism, while median copy numbers of the same TEs did not vary between populations. Analysis of molecular variance (AMOVA) detected significant differentiation between populations for three of the TEs; although no correlation between genetic and geographic distances was found, the corresponding population structures were found to be significantly correlated and indicate a degree of isolation by distance. TEs belonging to different classes have different mechanisms of replication, resulting in different transposition rates of mobilization; the finding of mostly concordant population structuring for three of the TEs indicates that population dynamics contributed significantly in shaping the detected insertional polymorphism.

Somatic breakpoints, distribution of repetitive DNA and non-LTR retrotransposon insertion sites in the chromosomes of Chironomus piger Strenzke (Diptera, Chironomidae)

Structural aberrations, their frequency and distribution as well as distribution of the tandem repetitive minisatellite DNA clusters of Alu and Hinf elements and two retroelements, the LINE NLRCth1 and the SINE CTRT1, were analyzed in the genome of the chironomid C. piger Strenzke larvae from a Bulgarian population. A consistent somatic variability in the structure of the polytene chromosomes was detected, showing that the C. piger genome is more actively rearranging than supposed before. Breakpoints were concentrated in proximal parts of chromosomes significantly more often than in distal parts. By FISH analysis we could detect only one locus containing Alu elements and 38 Hinf cluster loci which appear to be dispersed equally all over the chromosomes. The retrotransposons NLRCth1 and CTRT1 are present only in a few loci, but highly variant among different individuals. The mean number of NLRCth1 sites per individual was 18.4 +/- 2.09 and of CTRT1 was 54.8 +/- 8.42. A third of breakpoint locations were close to or coincide with a locus occupied by a retroelement (either NLRCth1 or CTRT1). Nineteen percent of breakpoints coincided with Hinf repetitive DNA elements. Some breakpoints were identical in the two sibling species C. piger and C. riparius Meigen (syn.: C. thummi thummi) and are considered as conserved hot spots of chromosome breakage.

Insertional polymorphism of a non-LTR mobile element (NLRCth1) in European populations of Chironomus riparius (Diptera, Chironomidae) as detected by transposon insertion display

The midge Chironomus riparius is distributed all over the Palearctic region and is well characterized both at the morphological and cytogenetic levels. Here we describe a population study based on the insertional polymorphism of the retroposon NLRCth1, by means of a S-SAP (sequence-specific amplification polymorphism) derived technique (transposon insertion display; TID). While a previous study of allozyme polymorphism in Russian samples showed little variability, all the amplicons we identified are polymorphic. Genetic distances between 6 natural populations were calculated according to Nei and did not show a positive correlation with geographic distances. The genetic diversity detected among individuals of a given population was one order of magnitude higher than that among populations. However, the value of phi(ST) was significant (p < 0.001) and indicates that natural populations are more genetically differentiated than random samples of individuals.

Insect globin gene polymorphisms: intronic minisatellites and a retroposon interrupting exon 1 of homologous globin genes in Chironomus (Diptera)

Exon 1 of globin gene ct-13RT in clone lambdagb2-1 from Chironomus thummi contains a 444nt SINE (CTRT1). Based on in situ hybridization to polytene salivary gland chromosomes, C. thummi (ct), C. piger (cp) and C. tentans (ctn) contain copies of CTRT1 at multiple chromosomal loci. Genomic PCR amplifications reveal interrupted (ct-13RT) and uninterrupted (ct-13) alleles of the globin gene in the German population of C. thummi maintained in our laboratory, and only uninterrupted alleles or their homologs in different populations of C. thummi, C. piger and C. tentans. PCR amplification did generate different length fragments from cp-13 gene homologs in natural and laboratory C. piger populations that were due to variation in the length of minisatellite expansions of the central introns of the genes rather than a CTRT1-like SINE. Within minisatellite arrays, aligned homologs were more similar than paralogs in a single population, indicating that a tandem cluster of these repeats predated separation of the C. piger populations. The ct-13 genes of several C. thummi populations lack the minisatellites, suggesting their origin in C. piger only after the thummi/piger split. CTRT1 transposition into a ct-13 allele is even more recent, occurring after separation of German and other European C. thummi populations. The nearly intact ct-13RT and comparison with its intact ct-13 allele support a very recent transposition of the CTRT1 SINE into one of at least two already diverged ct-13 globin gene alleles. PCR analysis of DNA from individual adults in C. thummi shows a 1:2:1 distribution of ct-13/ct-13:ct-13/ct-13RT:ct-13RT/ct-13RT genotypes, consistent with a neutral spread of the ct-13RT allele since transposition, and indicating that the hemoglobin encoded by ct-13 is not necessary for survival, at least in a laboratory population of C. thummi.

Distribution of T1, Q, Pegasus and mariner transposable elements on the polytene chromosomes of PEST, a standard strain of Anopheles gambiae

The chromosomal locations of four families of transposable elements, T1, Q, Pegasus and mariner, have been determined by in situ hybridization to polytene chromosomes of ovarian nurse cells of the mosquito Anopheles gambiae. As part of this effort, we have developed a vigorous pink-eyed laboratory strain of A. gambiae (PEST), rendered homozygous standard for chromosomal inversions on all autosomes. Ten different individuals of this strain were studied with each transposable element probe. The average number of hybridization sites per genome was 83.9 for T1, 63.4 for Q, 31.5 for Pegasus and 64.7 for mariner, excluding pericentric and centromeric regions. However, some degree of polymorphism was observed within each family such that, considering all ten individuals, 94 different sites were detected for T1, 82 sites for Q, 45 sites for Pegasus and 71 sites for mariner. The mean occupancy per site varied from 0.70 (Pegasus) to 0.91 (mariner), which, while significantly higher than that seen for transposable elements in natural populations of Drosophila melanogaster, is comparable to that seen in established laboratory stocks. In addition, these element families were not randomly distributed. All but Pegasus were concentrated in centromeric heterochromatin and centromere-proximal euchromatin, most showed a deficit of hybridization sites in the distal section of chromosomes, and a significant proportion of sites were coincident between families. These results provide the first detailed examination of the cytogenetic location of transposable elements in a nondrosophilid insect, and, through comparison with the behavior of transposable elements in Drosophila, may provide insight into the interaction between elements and host. The mapped elements are also expected to serve as landmarks useful in integrating the developing physical map of the PEST strain with the chromosomal banding pattern.

The Chironomus thummi genome contains a non-LTR retrotransposon

Nineteen recombinant phages containing DNA from the region of Balbiani ring a (BRa), which develops on chromosome IV in cells of the special lobe of the Chironomus thummi salivary gland, were isolated from a Chironomus thummi genomic library. Three of the clones contained transposable element sequences that hybridized to more than 100 sites on all four Chironomus chromosomes, including constant and variable sites. Two handogous clones, lambda 24 (which lacks the transposable element) and lambda 43 (which contains this insertion) were investigated by nucleotide sequence analysis. The complete nucleotide sequence of the 4.8 kb transposable element from Chironomus thummi (NLR1Cth) is reported here. This element contains two overlapping open reading frames of 1887 (ORF1) and 2649 bp (ORF2). Three cysteine motifs are found in the sequence of ORF1. Sequence similarity was found between ORF2 and known genes of viruses and transposable elements which encode reverse transcriptase. The NLR1Cth element has no long terminal repeats and is flanked by short direct repeats of the sequence TATCACTGACAAC. A 24 bp poly(dA) sequence was found at the 3' end of the element. Based upon its structural organization and comparative analysis of its nucleotide sequence we suggest that this NLR1Cth element belongs to the class of non-LTR retrotransposons. The genomic clone pC6.10 was previously obtained by microdissection and cloning of DNA from polytene chromosome IV of Chironomus thummi. A 2.4 kb insertion contained part of the 3' terminal region of the NLR1Cth element, but this differed in sequence from the first copy by several nucleotide substitutions and a shorter poly (dA) tract at the 3' end.(ABSTRACT TRUNCATED AT 250 WORDS)