Mutation and Recombination in Cattle Satellite DNA: A Feedback Model for the Evolution of Satellite DNA Repeats

The cattle genome contains several distinct centromeric satellites with interrelated evolutionary histories. We compared these satellites in Bovini species that diverged 0.2 to about 5 Myr ago. Quantification of hybridization signals by phosphor imaging revealed a large variation in the relative amounts of the major satellites. In the genome of water buffalo this has led to the complete deletion of satellite III. Comparative sequencing and PCR-RFLP analysis of satellites IV, 1.711a, and 1.711b from the related Bos and Bison species revealed heterogeneities in 0.5 to 2% of the positions, again with variations in the relative amounts of sequence variants. Restriction patterns generated by double digestions suggested a recombination of sequence variants. Our results are compatible with a model of the life history of satellites during which homogeneity of interacting repeat units is both cause and consequence of the rapid turnover of satellite DNA. Initially, a positive feedback loop leads to a rapid saltatory amplification of homogeneous repeat units. In the second phase, mutations inhibit the interaction of repeat units and coexisting sequence variants amplify independently. Homogenization by the spreading of one of the variants is prevented by recombination and the satellite is eventually outcompeted by another, more homogeneous tandem repeat sequence. Received: 21 July 2000 / Accepted: 30 October 2000     

Complete sequence and organization of the cucumber (Cucumis sativus L. cv. Baekmibaekdadagi) chloroplast genome

The nucleotide sequence of the cucumber (Cucumis sativus L. cv. Baekmibaekdadagi) chloroplast genome was completed (DQ119058). The circular double-stranded DNA, consisting of 155,527 bp, contained a pair of inverted repeat regions (IRa and IRb) of 25,187 bp each, which were separated by small and large single copy regions of 86,879 and 18,274 bp, respectively. The presence and relative positions of 113 genes (76 peptide-encoding genes, 30 tRNA genes, four rRNA genes, and three conserved open reading frames) were identified. The major portion (55.76%) of the C. sativus chloroplast genome consisted of gene-coding regions (49.13% protein coding and 6.63% RNA regions; 27.81% LSC, 9.46% SSC and 18.49% IR regions), while intergenic spacers (including 20 introns) made up 44.24%. The overall G-C content of C. sativus chloroplast genome was 36.95%. Sixteen genes contained one intron, while two genes had two introns. The expansion/contraction manner of IR at IRb/LSC and IR/SSC border in Cucumis was similar to that of Lotus and Arabidopsis, and the manner at IRa/LSC was similar to Lotus and Nicotiana. In total, 56 simple sequence repeats (more than 10 bases) were identified in the C. sativus chloroplast genome.     

High-resolution mapping of repetitive DNA by in situ hybridization: molecular and chromosomal features of prominent dispersed and discretely localized DNA families from the wild beet species Beta procumbens

Members of three prominent DNA families of Beta procumbens have been isolated as Sau3A repeats. Two families consisting of repeats of about 158 bp and 312 bp are organized as satellite DNAs (Sau3A satellites I and II), whereas the third family with a repeat length of 202 bp is interspersed throughout the genome. Multi-colour fluorescence in situ hybridization was used for physical mapping of the DNA families, and has shown that these tandemly organized families occur in large heterochromatic and DAPI positive blocks. The Sau3A satellite I hybridized exclusively around or near the centromeres of 10, 11 or 12 chromosomes. The Sau3A satellite family I showed high intraspecific variability and high-resolution physical mapping was performed on pachytene chromosomes using differentially labelled repeats. The physical order of satellite subfamily arrays along a chromosome was visualized and provided evidence that large arrays of plant satellite repeats are not contiguous and consist of distinct subfamily domains. Re-hybridization of a heterologous rRNA probe to mitotic metaphase chromosomes revealed that the 18S-5.8S-25S rRNA genes are located at subterminal position on one chromosome pair missing repeat clusters of the Sau3A satellite family I. It is known that arrays of Sau3A satellite I repeats are tightly linked to a nematode (Heterodera schachtii) resistance gene and our results show that the gene might be located close to the centromere. Large arrays of the Sau3A satellite II were found in centromeric regions of 16 chromosomes and, in addition, a considerable interspersion of repeats over all chromosomes was observed. The family of interspersed 202 bp repeats is uniformly distributed over all chromosomes and largely excluded from the rRNA gene cluster but shows local amplification in some regions. Southern hybridization has shown that all three families are specific for genomes of the section Procumbentes of the genus Beta.     

Sequence analysis of Vicia faba highly repeated DNA: the BamHI repeated sequence families

Cleavage of Vicia faba nuclear DNA with the restriction endonuclease BamHI yielded discrete size classes of 250, 850, 900, 990, 1 150, 1 500 and 1 750 bp of highly repetitive DNA. Each of these sequence families comprised about 3% of the total genomic DNA. Some sequence members from each sequence family were cloned in pBR322 and their primary structures determined. Computer analyses of nucleotide sequences suggested the existence of about 60 bp sequence periodicity within the repeating unit of the 990 bp sequence family, though the extent of homology among the surmised shorter subrepeat units was very low. With other BamHI sequence families, however, the data did not show any clear internal sequence periodicity. The repeat units of the 850 bp and 1 750 bp sequence families contained nucleotide sequences homologous to the 250 bp family sequence. No sequence relationship between or among other sequence families was observed. There was 13–25% sequence variation among 6 cloned members of the 250 bp family and probably also among those of other BamHI repeat families. DNA sequences homologous to these V. faba BamHI repeat families were detected in Pisum sativum DNA by Southern blot hybridization. Furthermore, very weak cross-hybridization was observed with plant DNAs from Phaseolus vulgaris, Triticum aestivum, Cucumis sativus and Trillium kamtschaticum.     

Characterization of a novel satellite DNA sequence from Flying Dragon (Poncirus trifoliata)

Repetitive sequences constitute a significant component of most eukaryotic genomes, and the isolation and characterization of repetitive DNA sequences provide an insight into the organization of the genome of interest. Here, we report the isolation and the molecular analysis and methylation status of a novel tandemly organized repetitive DNA sequence from the genome of Poncirus trifoliata. Digestion of P. trifoliata DNA with Afa I produced a prominent fragment of approximately 400 bp. Southern blotting analysis of genomic DNA digested with the same enzyme revealed a ladder composed of DNA fragments that are multimers of the 400-bp Afa I band, indicating that the repetitive DNA is arrayed in tandem. This suggests that Afa I isolated a novel satellite that we have called Poncirus trifoliata satellite DNA 400 (PN400). This satellite composes 25% of the genome and it is also present in lemon, sour orange and kumquat. Analysis of the methylation status demonstrated that the cytosines in CCGG sequences in this satellite were methylated.     

Length polymorphism and homologies of microsatellites in several Cucurbitaceae species

The objectives of this research were to assess (1) the degree of Simple Sequence Repeats (SSR) DNA length polymorphism in melon (Cucumis melo L.) and other species within the Cucurbitaceae family and (2) the possibility of utilizing SSRs flanking primers from single species to other genera or species of Cucurbitaceae. Five melon (CT/GA) _n SSRs were isolated from a genomic library. Two cucumber (Cucumis sativus L.) SSRs were detected through a search of DNA sequence databases, one contained a (CT)₈ repeat, the other a (AT)₁₃ repeat. The seven SSRs were used to test a diverse sample of Cucurbitaceae, including 8 melon, 11 cucumber, 5 squash, 1 pumpkin, and 3 watermelon genotypes. Five of the seven SSRs detected length polymorphism among the 8 melon genotypes. PCR amplification revealed between three and five length variants (alleles) for each SSR locus, with gene diversity values ranging from 0.53 to 0.75. Codominant segregation of the alleles among F₂ progeny was demonstrated for each of the five SSR loci. Four of the seven SSRs detected polymorphism among the 11 cucumber genotypes, with gene diversity values ranging between 0.18 and 0.64. Primers specific to SSRs of C. melo and C. sativus also amplified DNA extracted from genotypes belonging to other genera of the Cucurbitaceae family.     

A highly repeated DNA sequence in Arabidopsis thaliana

Summary Three members of a family of highly repeated DNA sequences from Arabidopsis thaliana have been cloned and characterized. The repeat unit has an average length of 180 bp and is tandemly repeated in arrays longer than 50 kb. This family represents more than one percent of the Arabidopsis genome. Sequence comparisons with tandemly repeated DNA sequences from other Cruciferae species show several regions of homology and a similar length of the repeat unit. Homologies are also found to highly repeated sequences from other plant species. When the sequence CCGG occurs in the repeated DNA, the inner cytosine is generally methylated.     

Complex structure of the ribosomal DNA spacer of Cucumis sativus (cucumber)

Summary The nuclear 18 S, 5.8 S and 25 S ribosomal RNA genes (rDNA) of Cucumis sativus (cucumber) occur in at least four different repeat types of 10.2, 10.5, 11.5, and 12.5 kb in length. The intergenic spacer of these repeats has been cloned and characterized with respect to sequence organization. The spacer structure is very unusual compared to those of other eukaryotes. Duplicated regions of 197 bp and 311 bp containing part of the 3 end of the 25 S rRNA coding region and approximately 470 bp of 25 S rRNA flanking sequences occur in the intergenic spacer. The data from sequence analysis suggest that these duplications originate from recombination events in which DNA sequences of the original rDNA spacer were paired with sequences of the 25 S rRNA coding region. The duplicated 3ends of the 25 S rRNA are separated from each other mostly by a tandemly repeated 30 bp element showing a high GC-content of 87.5%. In addition, another tandemly repeated sequence of 90 bp was found downstream of the 3flanking sequences of the 25 S rRNA coding region. These results suggest that rRNA coding sequences can be involved in the generation of rDNA spacer sequences by unequal crossing over.     

Characterization and chromosome location of satellite DNA in the leaf beetle Chrysolina americana (Coleoptera, Chrysomelidae)

This paper is the first record of the satellite DNA of the specialized phytophagous genus Chrysolina. The satellite DNA of Chrysolina americana is organized in a tandem repeat of monomers 189 bp long, has a A + T content of 59.6 % and presents direct and inverted internal repeats. Restriction analysis of the total DNA with methylation sensitive enzymes suggests that this repetitive DNA is undermethylated. In situ hybridization with a biotinylated probe of the satellite DNA showed the pericentromeric localization of these sequences in all meiotic bivalents. The presence of this repetitive DNA in other species of the genus was also tested by Southern analysis. The results showed that this satellite DNA sequence is specific to the C. americana genome and has not been found in three other species of Chrysolina with a different choice of host plants than in the former. This revised version was published online in July 2006 with corrections to the Cover Date.     

Comparison of the ribosomal RNA genes in four closely relatedCucurbitaceae

Cucurbitaceae are characterized by a high copy number for nuclear ribosomal RNA genes. We have investigated the genomic ribosomal DNA (rDNA) of four closely related species of this family with respect to structure, length heterogeneity, and evolution. InCucumis melo (melon) there are two main length variants of rDNA repeats with 10.7 and 10.55kb.Cucumis sativus (cucumber) shows at least three repeat types with 11.5, 10.5, and 10.2kb.Cucurbita pepo (zucchini) has two different repeat types with 10.0 and 9.3kb. There are also two different repeat types inCucurbita maxima (pumpkin) of about 11.2 and 10.5kb. Restriction enzyme mapping of the genomic rDNA of these four plants and of cloned repeats ofC. sativus shows further heterogeneities which are due to methylation or point mutations. By comparison of the restriction enzyme maps it was possible to trace some evolutionary events in the family ofCucurbitaceae. Some aspects of regulation and function of the middle repetitive rRNA genes (here between 2000 and 10000 copies) are discussed.     

Distribution of the tandem repeat sequences and karyotyping in cucumber (Cucumis sativus L.) by fluorescence in situ hybridization

We analyzed repeat sequences composition in the genome of cucumber inbred line 9930 using whole-genome shotgun reads. The analysis showed that satellite DNA sequences are the most dominant components in the cucumber genome. The distribution pattern of several tandem repeat sequences (Type I/II, Type III and Type IV) on cucumber chromosomes was visualized using fluorescence in situ hybridization (FISH). The FISH signals of the Type III and 45S rDNA provide useful cytogenetic markers, whose position and fluorescence intensity allow for easy identification of all somatic metaphase chromosomes. A karyotype showing the position and fluorescence intensity of several tandem repeat sequences is constructed. The establishment of this FISH-based karyotype has created the basis for the integration of molecular, genetic and cytogenetic maps in Cucumis sativus and for the ultimate genome sequencing project as well.     

Complex structural features of satellite DNA sequences in the genus Pimelia (Coleoptera: Tenebrionidae): random differential amplification from a common 'satellite DNA library'

The major satellites of the nine species of the subgenera Pimelia s. str. and Amblyptera characterised in this paper are composed of longer monomers (500 and 700 bp) than those described previously in 26 Pimelia s. str. taxa (357 bp, a sequence called PIM357). Sequence analysis reveals partial similarity among these satellites and with the PIM357 monomers. The discrepancy between the phylogeny obtained based on three mitochondrial and two nuclear markers and that deduced from satellite DNA (stDNA) sequences suggests that the different Pimelia satellites were already present in a common ancestor forming what has been called a 'satellite DNA library'. Thus, the satellite profiles in the living species result from a random amplification of sequences from that 'library' during diversification of the species. However, species-specific turnover in the sequences has occurred at different rates. They have included abrupt replacements, a gradual divergence and, in other cases, no apparent change in sequence composition over a considerable evolutionary time. The results also suggest a common evolutionary origin of all these Pimelia satellite sequences, involving several rearrangements. We propose that the repeat unit of about 500 bp has originated from the insertion of a DNA fragment of 141 bp into the PIM357 unit. The 705-bp repeats have originated from a 32-bp direct duplication and the insertion of a 141-bp fragment in inverted orientation relative to a basic structure of 533 bp.     

Molecular and physical organization of highly repetitive, undermethylated DNA from Pennisetum glaucum

A HaeIIl monomer of a repetitive DNA family from Pennisetum glaucum (L.) R. Br. cv. Massue has been cloned and characterized. The repeat is 137 bp long and is organized in head-to-tail orientation in tandem arrays. The HaeIII monomer contains 55% A+T residues. The distribution of this highly repetitive sequence in different Pennisetum species and in other cereals was investigated. The HaeIII satellite is present in all Pennisetum species investigated but absent from other genera examined. In situ hybridization revealed a centromeric localization of this sequence on all seven chromosome pairs and indicated chromosome-specific differences in copy number. Methylation was investigated by comparative restriction enzyme analysis (Msp/HpaII) which showed a greater extent of methylation of the internal C of the enzyme recognition site 5-CCGG. A South-Western analysis, using an anti-methylcytosine antibody to examine the methylation status in P. glaucum confirmed that the sequence is not highly methylated.     

Structure Analysis of Two <Emphasis Type="Italic">Toxoplasma gondii</Emphasis> and <Emphasis Type="BoldItalic">Neospora caninum</Emphasis> Satellite DNA Families and Evolution of Their Common Monomeric Sequence

A family of repetitive DNA elements of approximately 350 bp—Sat350—that are members of Toxoplasma gondii satellite DNA was further analyzed. Sequence analysis identified at least three distinct repeat types within this family, called types A, B, and C. B repeats were divided into the subtypes B1 and B2. A search for internal repetitions within this family permitted the identification of conserved regions and the design of PCR primers that amplify almost all these repetitive elements. These primers amplified the expected 350-bp repeats and a novel 680-bp repetitive element (Sat680) related to this family. Two additional tandemly repeated high-order structures corresponding to this satellite DNA family were found by searching the Toxoplasma genome database with these sequences. These studies were confirmed by sequence analysis and identified: (1) an arrangement of AB1CB2 350-bp repeats and (2) an arrangement of two 350-bp-like repeats, resulting in a 680-bp monomer. Sequence comparison and phylogenetic analysis indicated that both high-order structures may have originated from the same ancestral 350-bp repeat. PCR amplification, sequence analysis and Southern blot showed that similar high-order structures were also found in the Toxoplasma-sister taxon Neospora caninum. The Toxoplasma genome database ( ) permitted the assembly of a contig harboring Sat350 elements at one end and a long nonrepetitive DNA sequence flanking this satellite DNA. The region bordering the Sat350 repeats contained two differentially expressed sequence-related regions and interstitial telomeric sequences.     

A large DNA repeat of the dispersion pattern common to wheat and rye genomes

A Hind III-generated fragment of wheat embryo nuclear DNA has been cloned and sequenced. The cloned fragment corresponds to a 1241 bp long, moderately repeated (60 000 copies/genome) segment of the genomic DNA. The repeat is AT-rich (67%), contains an open reading frame for 151 amino acids and several nucleotide blocks resembling the consensus domain of autonomously replicating sequences. Southern blot hybridization analyses indicate that the repeat is scattered through the wheat genome. A sequence homologous to this repeat occurs also in rye embryo nuclear DNA where it shows the same dispersion pattern as that observed for the wheat repeat.     

Structure of 1.71 lb gm/cm(3) bovine satellite DNA: evolutionary relationship to satellite I

The Eco RI fragments from the 2600 bp repeating unit of 1.711b gm/Cm(3) bovine satellite DNA were cloned in pBR322. The structure of the repeat unit was determined and compared to bovine satellite I DNA (rho CsCl = 1.715 gm/cm(3)). All of the DNA in the 1402 bp repeat of satellite I is represented in the sequence of the 2600 bp 1.711b gm/cm(3) repeat. The difference between the two repeats is due to a 1200 bp piece of DNA (INS) residing in the middle of the 1.711b gm/cm(3) repeat. The INS is AT-rich and has some repetitive components; it bears only limited similarity to the structure of eukaryotic transposable elements. We propose that the 1.711b gm/cm(3) satellite DNA arose via the amplification of a 1.715 gm/cm(3) satellite repeat altered by a 1200 bp insertion of DNA.     

The construction and characteristics of a BAC library for <Emphasis Type="Italic">Cucumis sativus</Emphasis> L. ‘B10’

Cloning using bacterial artificial chromosomes (BACs) can yield high quality genomic libraries, which are used for the physical mapping, identification and isolation of genes, and for gene sequencing. A BAC genomic library was constructed from high molecular weight DNA (HMW DNA) obtained from nuclei of the cucumber (Cucumis sativus L. cv. Borszczagowski; B10 line). The DNA was digested with the HindIII restriction enzyme and ligated into the pCC1BAC vector. The library consists of 34,560 BAC clones with an average insert size of 135 kb, and 12.7x genome coverage. Screening the library for chloroplast and mitochondrial DNA content indicated an exceptionally low 0.26% contamination with chloroplast DNA and 0.3% with mitochondrial DNA.