Interspersion of repetitive sequences in rat liver DNA

In rat liver DNA, which contains only 20% repetitive sequences, a close interspersion of repetitive and unique sequences is found in about 35 % of the total DNA. The mean length of repetitive and unique alternating sequences is respectively 230 and 400 base pairs.     

A highly repetitive, mariner-like element in the genome of Hyalophora cecropia.

A highly repetitive DNA element, homologous to the mariner transposon of Drosophila mauritiana was found in the intron of the gene for cecropin A, an antibacterial peptide from the Cecropia moth. The mariner-like elements (MLE) represent a homogeneous population with a copy number of about 1000/genome. Sequencing analysis showed it to be 1255 base pairs long, including 38-base pair terminal inverted repeats. The MLE contains a defective reading frame. Nevertheless, the putative product is clearly homologous to the predicted translation product encoded by mariner. In consonance is also the fact that the inverted repeats are highly conserved between the two elements and that the overall DNA homology is 48%. Since the mariner element is present in several Drosophila species closely related to Drosophila melanogaster and since MLE is present in the lepidopteran Cecropia, a route of horizontal transfer is indicated rather than vertical transmission from a common ancestor. This suggests the possible use of mariner for the construction of an interspecies vector.     

Cotransposition of a highly repetitive DNA element with flanking sequences in the genome of the midgeChironomus thummi

Summary A family of highly repetitive DNA elements, the Cla-elements, is present in the genomes of the two sibling speciesChironomus th. thummi andCh. th. piger. These Cla-elements are organized in large tandem repetitive clusters as well as occuring as interspersed monomeric elements, in both subspecies. The analysis of a monomeric Cla-element and several kilobases of its flanking sequences fromCh. th. piger revealed that the short Cla-elements are cotransposed together with adjacent DNA. We found the same association of Cla-elements with specific flanking DNA in clones obtained from the rDNA ofCh. th. thummi and from nonribosomal Cla-DNA ofCh. th. piger. The Cla-element-flanking DNA is clearly also repetitive, but mainly of inter-spersed organization.     

Interspersion of different repeated sequences in the wheat genome revealed by interspecies DNA/DNA hybridisation.

The repeated sequences in oats DNA have been used to study chromosomal repeated sequence organisation in wheat. Approximately 75% of the wheat genome consists of repeated sequences but only approximately 20% will form heteroduplexes with repeated sequences from oats DNA at 60 degrees C in 0.18 M Na+. The proportion of wheat DNA that forms heteroduplexes with oats DNA is shown to be independent of the wheat DNA fragment length. However, the proportion of wheat DNA that is retained with the heteroduplexes when fractionated on hydroxyapatite is very dependent upon the wheat fragment length up to 3500 nucleotides. This is because more non-renatured wheat DNA is attached to the heteroduplexes with longer fragments. The results indicate that the repeated sequences in the wheat genome homologous to repeated sequences in oats are not clustered in the chromosomes but distributed amongst other repeated and possible non-repeated sequences.     

Molecular cytogenetic analysis of the highly repetitive DNA in the genome of Apodemus argenteus, with comments on the phylogenetic relationships in the genus Apodemus.

The DNA of Apodemus argenteus was digested with DraI, and the resultant DraI fragment of highly repetitive DNA was isolated and analyzed by DNA filter hybridization, cloning, sequencing, and fluorescence in situ hybridization (FISH). Southern blot hybridization and nucleotide sequencing revealed that most of the DraI fragment consisted of a 230-bp repeating unit and contained no sex-chromosome-specific nucleotide sequences. The DraI fragment included the CENP-B box-like sequence, with a strong homology to the human CENP-B box sequence. FISH revealed that the DraI fragment was specific to all pericentromeric C-band-positive regions, as well as to the C-block of the X chromosome. No hybridization signals were obtained from A. speciosus, A. peninsulae peninsulae, A.p. giliacus, A. agrarius, A. sylvaticus, A. semotus, or Mus musculus when the DraI fragment was used as probe. Peptide nucleic acid (PNA)-FISH using the CENP-B box-like sequence in the DraI fragments as probe suggested that this nucleotide sequence was also specific to all pericentromeric C-heterochromatic regions of A. argenteus chromosomes. Zoo-blot hybridization using DraI-digested genomic DNA from three species of Apodemus (namely, A. argenteus, A. speciosus, and A. peninsulae) and from Mus musculus strongly suggested that the consensus DraI fragment contained nucleotide sequences that were species-specific for A. argenteus. These results also suggest that A. argenteus is phylogenetically distant from other Apodemus species examined, as well as the possibility that the DraI fragment might be related directly to the delayed quinacrine mustard fluorescence of many pericentromeric C-heterochromatic regions of the chromosomes in A. argenteus.     

A unique repetitive DNA sequence in the Myxococcus xanthus genome.

We found a novel type of repetitive DNA sequence in the Myxococcus xanthus genome. The first repetitive sequence is located in the spacer region between the ops and tps genes. We cloned five other repetitive sequences using the first repetitive sequence as a probe and determined their nucleotide sequences. Comparison of these sequences revealed that the repetitive sequences consist of a 87-bp core sequence and that some clones share additional homology on their flanking regions.     

Retrotransposon-like nature of Tp1 elements: implications for the organisation of highly repetitive, hypermethylated DNA in the genome of Physarum polycephalum.

The repetitive fraction of the genome of the eukaryotic slime mould Physarum polycephalum is dominated by the Tp1 family of highly repetitive retrotransposon-like sequences. Tp1 elements consist of two terminal direct repeats of 277bp which flank an internal domain of 8.3kb. They are the major sequence component in the hypermethylated (M+) fraction of the genome where they have been found exclusively in scrambled clusters of up to 50kb long. Scrambling is thought to have arisen by insertion of Tp1 into further copies of the same sequence. In the present study, sequence analysis of cloned Tp1 elements has revealed striking homologies of the predicted amino acid sequence to several highly conserved domains characteristic of retrotransposons. The relative order of the predicted coding regions indicates that Tp1 elements are more closely related to copia and Ty than to retroviruses. Self-integration and methylation of Tp1 elements may function to limit transposition frequency. Such mechanisms provide a possible explanation for the origin and organisation of M + DNA in the Physarum genome.     

Bending of a highly repetitive component in rat nuclear DNA.

A highly repetitive component in rat nuclear DNA was isolated by HindIII digestion and cloned. A 370-bp cloned component was highly AT-rich (68.3%) in about one third of the region from the 3'-terminus and showed an anomalously slow gel electrophoretic mobility (k-factor = 1.19). These results indicated that a sequence-directed bending of the helix axis occurs in the component. Accordingly, a subclone containing a tandem dimer of the component was isolated and subjected to a circular permutation analysis for exploring the bend center (1). In consequence, the center was shown to be present in the sequence ranging from position near 270 to the 3'-terminus and estimated to be located around position 340.     

Organization of repetitive DNA sequences in the genome of the echinoderm Holothuria tubulosa.

The abundance of repetitive DNA in the haploid sea cucumber genome has been determined by screening a Holothuria genomic DNA library for clones containing repeated sequences using reverse genome hybridization. Analysis by in situ plaque hybridization of a set of 1132 clones has revealed the presence of repetitive DNA sequences in about 38.1% of the clones screened. The distribution of the reiterated DNA has been further analyzed by restriction endonuclease digestion of seven randomly selected repetitive clones. The repeated sequences have a fairly uniform distribution of lengths with an average length value of 7.3 kb. Analysis of the measurements suggests that the repetitive sequences are interspersed among longer single copy sequences with an average spacing interval of about 47.3 kb indicating that the repetitive and single copy DNA in the Holothuria genome are arranged in a long-period interspersion pattern.     

Cloned single copy DNA sequences of Mycobacterium tuberculosis as DNA probes.

A recombinant genomic clone was isolated from a lambda gt 11 library of M. tuberculosis on the basis of lack of hybridization with M. avium and M. kansasi. The specificity and sensitivity of M. tb DNA probes, 2.5 and 2.3 kb in size, were assessed by Southern blot and dot blot hybridization. These did not cross hybridize to DNA of mycobacteria other than members of M. tb complex, nor with DNA of non mycobacterial origin. Sensitivity was determined to be 200 pg which is equivalent to 10(4) bacilli. Genomic Southern hybridization indicated single copy nature of the probes.     

Molecular characterisation and chromosomal localisation of a telomere-like repetitive DNA sequence highly enriched in the C genome of Brassica

The aim of this work was to find C genome specific repetitive DNA sequences able to differentiate the homeologous A (B. rapa) and C (B. oleracea) genomes of Brassica, in order to assist in the physical identification of B. napus chromosomes. A repetitive sequence (pBo1.6) highly enriched in the C genome of Brassica was cloned from B. oleracea and its chromosomal organisation was investigated through fluorescent in situ hybridisation (FISH) in B. oleracea (2n = 18, CC), B. rapa (2n = 20, AA) and B. napus (2n = 38, AACC) genomes. The sequence was 203 bp long with a GC content of 48.3%. It showed up to 89% sequence identity with telomere-like DNA from many plant species. This repeat was clearly underrepresented in the A genome and the in situ hybridisation showed its B. oleracea specificity at the chromosomal level. Sequence pBo1.6 was localised at interstitial and/or telomeric/subtelomeric regions of all chromosomes from B. oleracea, whereas in B. rapa no signal was detected in most of the cells. In B. napus 18 to 24 chromosomes hybridised with pBo1.6. The discovery of a sequence highly enriched in the C genome of Brassica opens the opportunity for detailed studies regarding the subsequent evolution of DNA sequences in polyploid genomes. Moreover, pBo1.6 may be useful for the determination of the chromosomal location of transgenic DNA in genetically modified oilseed rape.     

Clustered and interspersed repetitive DNA sequences in four amphibian species with different genome size.

We have compared the amount of clustered and interspersed repetitive sequences in the genome of four Amphibia with different DNA contents per haploid nucleus: two Anura (Xenopus laevis, 3 pg and Bufo bufo, 7 pg) and two Urodela (Triturus cristatus, 23 pg and Necturus maculosus, 52 pg). High molecular weight DNA of the four species was denatured and reassociated to the same Cot in order to obtain duplex sequences with a similar reiteration frequency. Single-stranded DNA was digested off with the Aspergillus S1 nuclease. DNA was then fractionated according to the molecular weight through an agarose A-50 column. We found that the amount of long repetitive sequences is roughly proportional to the genome size in the four species, while the number of short (about 300 base pairs) repetitive sequences is increased many-fold in the species with the larger DNA content, both in Anura and in Urodela.