Illegitimate recombination in the histone multigenic family generates circular DNAs in Drosophila embryos.

From extrachromosomal covalently closed circular DNA molecules purified from Drosophila melanogaster embryos, we have isolated 24 clones homologous to the histone tandemly repeated gene family. Some of the clones harbor one of the two main types of genomic repeated units of 4.8 and 5.0 kb. and probably result from homologous recombination. The remaining clones have a size ranging from 0.2 to 2.5 kb. and most of them carry a single fragment of the repeated unit. Nucleotide sequences of the junction region of six of these clones indicate they are generated by illegitimate recombination between short (8-15 bp.) imperfect direct repeats. The data suggest that most of the histone homologous circular DNA molecules are deleted histone units.     

Despite its high representation in extrachromosomal circular DNAs from Drosophila embryos,the dodecasatellite does not allow autonomous replication in cultured cells

Summary— The dodecasatellite is a 11/12 bp tandemly repeated sequence which is overrepresented, with regard to its genomic representation, in extrachromosomal circular DNAs from D melanogaster embryos. Here we show that a bacterial plasmid carrying a cluster of dodecasatellite is not able to replicate efficiently in cultured cells. This observation does not support the hypothesis that the over-representati results from an autonomous replication of dodecasatellite circular DNA molecules.     

Regulated Formation of Extrachromosomal Circular DNA Molecules during Development in Xenopus laevis

Extrachromosomal circular DNA molecules of chromosomal origin have been detected in many organisms and are thought to reflect genomic plasticity in eukaryotic cells. Here we report a developmentally regulated formation of extrachromosomal circular DNA that occurs de novo in preblastula Xenopus embryos. This specific DNA population is not detected in the male or female germ cells and is dramatically reduced in later developmental stages and in adult tissues. The activity responsible for the de novo production of extrachromosomal circles is maternally inherited, is stored in the unfertilized egg, and requires genomic DNA as a template. The formation of circular molecules does not require genomic DNA replication but both processes can occur simultaneously in the early development. The production of extrachromosomal circular DNA does not proceed at random since multimers of the tandemly repeated sequence satellite 1 were over-represented in the circle population, while other sequences (such as ribosomal DNA and JCC31 repeated sequence) were not detected. This phenomenon reveals an unexpected plasticity of the embryonic genome which is restricted to the early developmental stage.     

A molecular and cytogenetic survey of major repeated DNA sequences in tomato (Lycopersicon esculentum)

Summary The major families of repeated DNA sequences in the genome of tomato (Lycopersicon esculentum) were isolated from a sheared DNA library. One thousand clones, representing one million base pairs, or 0.15% of the genome, were surveyed for repeated DNA sequences by hybridization to total nuclear DNA. Four major repeat classes were identified and characterized with respect to copy number, chromosomal localization by in situ hybridization, and evolution in the family Solanaceae. The most highly repeated sequence, with approximately 77000 copies, consists of a 162 bp tandemly repeated satellite DNA. This repeat is clustered at or near the telomeres of most chromosomes and also at the centromeres and interstitial sites of a few chromosomes. Another family of tandemly repeated sequences consists of the genes coding for the 45 S ribosomal RNA. The 9.1 kb repeating unit in L. esculentum was estimated to be present in approximately 2300 copies. The single locus, previously mapped using restriction fragment length polymorphisms, was shown by in situ hybridization as a very intense signal at the end of chromosome 2. The third family of repeated sequences was interspersed throughout nearly all chromosomes with an average of 133 kb between elements. The total copy number in the genome is approximately 4200. The fourth class consists of another interspersed repeat showing clustering at or near the centromeres in several chromosomes. This repeat had a copy number of approximately 2100. Sequences homologous to the 45 S ribosomal DNA showed cross-hybridization to DNA from all solanaceous species examined including potato, Datura, Petunia, tobacco and pepper. In contrast, with the exception of one class of interspersed repeats which is present in potato, all other repetitive sequences appear to be limited to the crossing-range of tomato. These results, along with those from a companion paper (Zamir and Tanksley 1988), indicate that tomato possesses few highly repetitive DNA sequences and those that do exist are evolving at a rate higher than most other genomic sequences.     

An extrachromosomal fragment of telomeric DNA in wheat

A procedure developed orginally for selective extraction of viral (extrachromosomal) DNA from virus-infected mammalian cells was applied to cell nuclei isolated from uninfected wheat embryos. The resulting nuclear extrachromosomal DNA (exDNA) was enriched for telomere-type sequences by isopycnic centrifugation and inserted into the Sma I site of pUC119. A cloned DNA fragment (241 bp) was found to consist primarily of tandemly repeated heptamere units of the same sequence (5-CCCTAAA-3) that is known to predominate in telomeric DNA of Arabidopsis thaliana. Hybridization experiments indicate that extrachromosomal telomeric repeats are abundant in resting embryos and disappear rapidly during germination.     

Single extrachromosomal ribosomal rna gene copies are synthesized during amplification of the rDNA in tetrahymena

A novel form of extrachromosomal rDNA has been identified in conjugating Tetrahymena cells. This rDNA consists of 11 kb linear double-stranded DNA molecules, each containing a single rRNA gene copy. The DNA sequence, tandemly repeated CCCCAA (Blackburn and Gall 1978) found at the termini of extrachromosomal palindromic rDNA (the macronuclear form found in vegetatively growing cells), is also present at the corresponding terminus of the 11 kb rDNA. The other end of this molecule has an extra 0.3 kb segment of DNA covalently attached to the DNA region corresponding to the center of the palindromic rDNA. The kinetics of appearance and synthesis of the 11 kb rDNA early in macronuclear development are consistent with its being an intermediate in rDNA amplification.     

Nucleotide sequence of circular DNA molecules homologous to the 240 bp tandem repeats of the intergenic spacer of Drosophila melanogaster ribosomal DNA

We have determined the nucleotide sequence of ten 240 bp repeated sequences of the DNA intergenic spacer present in circular DNA molecules purified from D melanogaster embryos. No significant difference was found with the sequence of the chromosomal units. This suggests that most of the circular molecules homologous to the 240 bp repeats are generated by homologous recombination between adjacent chromosomal units.     

Cloning and characterization of an amplified DNA sequence in chromosomal DNA of Streptomyces aureofaciens 2201

In strain 2201 of Streptomyces aureofaciens, a high copy number amplified DNA sequence (ADS-Sa2201) was found and characterized. The amplified sequence in the chromosomal DNA of this strain forms a stretch of about 10 kb tandemly repeated 100-500 times. In this strain also, extrachromosomal copies of the repeated unit of the ADS-Sa2201 were found. In cloning experiments any autonomous replicon was found on ADS-Sa2201 and it thus can be presumed that the presence of the extrachromosomal copies of the repeated unit of ADS-Sa2201 is only a result of its excision from the chromosome. A part of the repeated unit of ADS-Sa2201 was also found in chromosomal DNA of strain 13 of S. aureofaciens. In this strain no part of ADS-Sa2201 is present extrachromosomally.     

Extrachromosomal elements in the lower eukaryote Leishmania

Extrachromosomal DNA elements have been identified in wild-type populations of the parasitic protozoan Leishmania. Elements from L. major and L. tropica were detected using orthogonal-field-alternation-gel electrophoresis. They are nonhomologous, supercoiled circular DNA molecules derived from different chromosomes in the Leishmania genome. Electron microscopy revealed that the elements have very similar physical properties; both are 80-kilobase supercoiled DNA molecules that contain large inverted repeat structures. The extrachromosomal DNAs are amplified in the Leishmania populations and show a fluctuation in copy number, from undetectable to around 20 copies per cell. After exposure of the L. tropica population to the drug methotrexate (MTX), a second amplified DNA was observed that is homologous to the extrachromosomal DNA found in L. major. Furthermore, wild-type Leishmania populations containing extrachromosomal DNA adapt more readily to MTX selection than populations with no amplified DNA. From these observations, there appears to be a relationship between the presence of extrachromosomal elements in wild-type Leishmania and the genesis and maintenance of MTX resistance in these organisms.     

The interaction between pancreatic lipase and colipase: a protein-protein interaction regulated by a lipid

The eukaryotic transposable element Ty1 is present in about 20-30 integrated copies per yeast aploid genome, variably localized in different strains. Here, we report the presence in yeast of circular extrachromosomal molecules homologous to Ty1, 6 kilobases in size (the same as integrated copies) present in about 1 circular copy/250-300 cells. This finding shows another analogy between eukaryotic-transposable elements and the pro-viral integrative form of retroviruses.     

A variant tandemly repeated nucleotide sequence in Balbiani ring 2 of Chironomus tentans

pCtBR2-2 is a genomic clone from Chironomus tentans that hybridized in situ to Balbiani ring 2 (BR2) on salivary gland polytene chromosome IV. DNA sequencing indicated that the insert contained nearly four copies of a 180 bp tandemly repeated nucleotide sequence that was distinctly different from a previously reported BR2 repeat. Sequence titration experiments detected about 70 copies of the 180 bp repeat per haploid genome, which would correspond to approximately 34% of a 37 kb BR2 gene. Each 180 bp repeat included a conserved 90 bp segment whose sequence was internally nonrepeating (INR), and a variable 90 bp repeated (R) segment comprised of three 30 bp repeats that may have evolved from a 9 bp consensus sequence. Results presented here raise the distinct possibility that other BR genes may contain significantly different repeated sequences that have not been identified.     

Chromatin reconstituted from tandemly repeated cloned DNA fragments and core histones: a model system for study of higher order structure

We describe a model system for study of chromatin structure at levels above that of the nucleosome. A series of fragments with lengths ranging from 172 to 207 bp tandemly repeated three to greater than 50 times was prepared; each repeat contains the region important in forming a positioned core particle on a sea urchin 5S rRNA gene upon in vitro association with histones. The tandemly repeated sequences can be studied as linear DNA fragments or as relaxed or supercoiled circular molecules. A number of criteria indicate that nucleosomes position correctly on all the tandemly repeated elements. Measurement of the change in linking number per core particle led to a value of -1.0. Both length and repeat number dependent changes in conformation of the nucleoproteins are observed. We discuss the possibility that some ordered higher level chromatin structure can form with DNA and core histones alone.     

A novel cell-free system reveals a mechanism of circular DNA formation from tandem repeats

One characteristic of genomic plasticity is the presence of extrachromosomal circular DNA (eccDNA). High levels of eccDNA are associated with genomic instability, exposure to carcinogens and aging. We have recently reported developmentally regulated formation of eccDNA that occurs preferentially in pre-blastula Xenopus laevis embryos. Multimers of tandemly repeated sequences were over-represented in the circle population while dispersed sequences were not detected, indicating that circles were not formed at random from any chromosomal sequence. Here we present detailed mechanistic studies of eccDNA formation in a cell-free system derived from Xenopus egg extracts. We show that naked chromosomal DNA from sperm or somatic tissues serves as a substrate for direct tandem repeat circle formation. Moreover, a recombinant bacterial tandem repeat can generate eccDNA in the extract through a de novo mechanism which is independent of DNA replication. These data suggest that the presence of a high level of any direct tandem repeat can confer on DNA the ability to be converted into circular multimers in the early embryo irrespective of its sequence and that homologous recombination is involved in this process.     

A sensitive assay for detecting mutations resulting from unequal homologous recombination without phenotypic selection

Naturally occurring mutations are composed of a large number of mutations of many types that include mutations resulting from unequal homologus recombination between repetitive elements. The present paper describes a sensitive method for detecting such mutations without phenotypic selection. This system utilizes a tandemly arranged Vr repetitive sequence comprising 6000 copies in the mouse genome that is present in the spacer of the ribosomal RNA gene. For HincII digests of FM3A cell DNA, the Vr probe provides 4 major bands of 2.7 kb, 1.7 kb, 1.6 kb and 1.35 kb and several minor bands. Newly induced mutations due to unequal homologous recombination are observed as disappearance of the minor bands and appearance of extra bands. With this method a spontaneous mutation was detected in 14 cell clones randomly isolated after 60 days of continuous growth. Exposure to 4 micrograms/ml of N-methyl-N'-nitro-N-nitrosoguanidine for 2 h revealed 4 mutations in 11 clones examined. Culturing the cells after treatment in the presence of 12-O-tetradecanoylphorbol 13-acetate enhanced the frequency, yielding 6 mutations in 5 clones. The assay can skip phenotypic selection prior to analysis of DNA changes and hence provides a direct method for monitoring mutations resulting from homologous recombination in non-biased cell populations.     

Circular extrachromosomal copia-like transposable elements in Drosophila tissue culture cells

We find that in the circular extrachromosomal DNA from Drosophila tissue culture cells the transposable elements copia, 412, 297, and mdg 1 are present in variable amounts. There is no detectable circular DNA homologous to B104 . From the relationship between the intra- and extrachromosomal forms it appears that the amount of different circular elements is not related to the amount of the respective chromosomal elements.     

Analysis of a YAC with human telomeres and oriP from epstein-barr virus in yeast and 293 cells.

One approach to the construction and propagation of a mammalian artificial chromosome is to build it up in Saccharomyces cerevisiae, using a yeast artificial chromosome (YAC) base. We have demonstrated that circular YACs carrying the Epstein-Barr virus origin of plasmid replication ( oriP ) are maintained as stable, episomal elements in human cells. We wished to determine whether this technology could be extended, to generate linear extrachromosomal elements. Here, we describe the generation of retrofitting constructs, which permit the addition of human telomeres and the oriP domain to YACs. The constructs contain 0.8 kb of human telomere sequence separated by a unique Not I site from 0.7 kb of Tetrahymena telomere sequence. These constructs seed telomere formation with approximately 40-60% efficiency in human 293-EBNA and HT1080 cells whether or not the Tetrahymena sequence is removed by Not I digestion. A detailed analysis demonstrates that YACs carrying the human telomere cassettes on both arms show instability of the telomere sequences in S.cerevisiae at a frequency of approximately 50%. Introduction of correctly retrofitted, linear oriP YACs into human 293-EBNA cells by lipofection resulted in the generation of circular extrachromosomal elements varying in size from 8 to 300 kb. However, no apparently linear YACs could be detected, suggesting that extrachromosomal maintenance of DNA with the oriP /EBNA-1 system is not compatible with linear molecules capped by telomeres.     

Extrachromosomal circular copies of the transposon Tc1.

The 1.6 kb Tc1 transposable element of Caenorhabditis elegans undergoes excision and transposition in the germline. In somatic tissue it is excised at high frequency. Extrachromosomal linear and circular copies of Tc1 have been identified that are likely to be products of somatic and germline excision. In the present study, we have determined the sequences of the sites of circularization in circular extrachromosomal Tc1 molecules. DNA molecules containing these sites were cloned after PCR amplification with primers directed outward from within Tc1. Sequences were obtained with two complete Tc1 ends and one or more intervening copies of the TA dinucleotide, with one complete end and one deleted end, and with two deleted ends. The 24 clones had different structures, indicating the pool of molecules serving as PCR templates was heterogeneous. The predominant circular junction had one or more nucleotides deleted from at least one transposon end. Such a molecule without two complete ends might not be expected to serve as a transposition intermediate. Hence, some extrachromosomal circular Tc1 molecules may result from a deadend excision pathway.     

A family of long reiterated DNA sequences, one copy of which is next to the human beta globin gene.

An unusually long repeated DNA sequence was identified in cloned DNA, three kb 3' to the human beta-globin gene. Other members of this repeated sequence family were isolated from a human genomic DNA library and characterized by Southern blotting techniques, electron microscopy, and solution hybridization. The copy located next to the beta-globin gene was found to be 6.4 +/- 0.2 kb long and continuous over that length. This repeated sequence family comprises about 1% of the human genome and contains 3000-4800 copies of moderate sequence divergence which are interspersed with other less-highly repeated DNA. The 6.4 kb repeated unit does not appear to be composed of any smaller tandemly repeated subunits, nor is it expressed at a high level in bone marrow cell RNA.     

Circular DNA of Entamoeba histolytica encodes ribosomal RNA

The presence of repeated DNA sequences encoding RNA in Entamoeba histolytica has been reported. In the present study we demonstrate by agarose gel electrophoresis. DNase digestion and electron microscopic analysis that these genes are located on extrachromosomal circular DNA molecules with an approximate size of 26 kb. Detection of replication intermediates suggests the episomal nature of these molecules. Amplified, extrachromosomal rRNA genes appear to be a common feature among the lower eukaryotes, occurring more commonly as linear molecules and less commonly as circles. Entamoeba histolytica is 1 of the few organisms studied in which rRNA genes are located predominantly on extrachromosomal circles.