Tandemly Repeated Sequence Families in Micronuclear DNA of the Ciliate Stylonychia pustulata1

One third of a collection of cloned Stylonychia pustulata micronuclear DNA PstI fragments were found to be of a similar size, consistent with their being members of a repetitious sequence family with a repeat size of about 160 base pairs. Cross-hybridization experiments confirmed that these small cloned fragments are related by sequence homology. Hybridization of the cloned repetitious sequences to PstI digested micronuclear DNA revealed a “ladder” of bands (step size = 160 base pairs), indicating that the repeats are found in tandem arrays. This is the first demonstration of highly repetitious, tandemly repeated sequences in a ciliated protozoan.     

Hordeum chilense repetitive sequences. Genome characterization using biotinylated probes

Summary A library of random DNA fragment clones of wild barley Hordeum chilense was screened for clones of repeated nucleotide sequences. Five clones were isolated that gave a stronger hybridization signal in colony and dot blot hybridization with total H. chilense DNA in comparison to Triticum aestivum DNA. Clones labelled with biotinylated nucleotides were used as probes to investigate the repeated sequences organization in the H. chilense genome. Tandemly arranged and interspersed sequences have been found, together with homology differences with related sequences present in T. Aestivum, which could allow the differentiation of H. chilense DNA when it is present in wheat. We show that biotin can replace the use of ³²P in preparing repeated sequence probes for Southern and DNA dot blot analyses.     

Human cellular sequences detectable with adenovirus probes

Previous studies suggesting homology between human cellular DNA and the DNAs from adenovirus types 2 and 5 are extended in the present paper. A clone (ChAd^h), isolated from a human genomic DNA library using an adenovirus probe, hybridized to discrete regions of adenovirus 2 DNA, including part of the transforming genes E1a and E1b, as well as to repeated sequences within human DNA. The E1a and E1b genes both hybridize to the same 300 base pair Sau3AI fragment within ChAd^h although there is no obvious homology between E1a and E1b. The Ad 2 E1a gene was also used as a probe to screen other cellular DNAs to determine whether repeated sequences detectable with Ad 2 DNA probes were conserved over long evolutionary periods. Hybridization was detected to the genomes of man, rat, mouse and fruit fly, but not to those of yeast and bacteria. In addition to a smear hybridization, discrete fragments were detected in both rodent and fruit fly DNAs. The experiments reported suggest the existence of two different types of cellular sequences detected by Ad 2 DNA: (1) repeated sequences conserved in a variety of eukaryote genomes and (2) a possible unique sequence detected with an E1a probe different from that responsible for hybridization to repeated sequences. This unique sequence was detected as an EcoRI fragment in mouse DNA and had a molecular size of about 8.8 kb.     

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.     

Nucleotide sequence of a highly repeated DNA sequence and its chromosomal localization in Allium fistulosum

A highly repeated DNA sequence with a repeating unit of approximately 380bp was found in EcoRV digests of the total genomic DNA of Allium fistulosum. Three independent clones containing this unit were isolated, and their repeating units sequenced. These units showed more than 94% sequence homology, and the copy number was estimated to be about 2.8×10⁶ per haploid genome. In situ hybridization, with the repeating unit as a probe, and C-banding analyses indicated that the repeated DNA sequence of A. fistulosum is closely associated with the major C-heterochromatin in the terminal regions of all 16 chromosomes at mitotic metaphase. The characters of the repeating unit are similar to those of the A. cepa unit, which is taxonomically closely related to A. fistulosum.     

The molecular organisation of a B chromosome tandem repeat sequence fromBrachycome dichromosomatica

A high copy, tandemly repeated, sequence (Bd49) specific to the B chromosome and located near the centromere in Brachycome dichromosomatica was used to identify lambda genomic clones from DNA of a 3B plant. Only one clone of those analysed was composed entirely of a tandem array of the B-specific repeat unit. In other clones, the Bd49 repeats were linked to, or interspersed with, sequences that are repetitious and distributed elsewhere on the A and B chromosomes. One such repetitious flanking sequence has similarity to retrotransposon sequences and a second is similar to chloroplast DNA sequences. Of the four separate junctions analysed of Bd49-like sequence with flanking sequence, three were associated with the same A/T-rich region in Bd49 and the fourth was close to a 25 bp imperfect dyadic sequence. No novel B-specific sequences were detected within the genomic clones. Received: 31 December 1995; in revised form: 1 May 1996 / Accepted: 10 May 1996     

Cloning and characterization of thewhite andtopaz eye color genes from the sheep blowflylucilia cuprina

Summary Clones carrying thewhite andtopaz eye color genes have been isolated from genomic DNA libraries of the blowflyLucilia cuprina using cloned DNA from the homologouswhite andscarlet genes. respectively, ofDrosophila melanogaster as probes. On the basis of hybridization studies using adjacent restriction fragments, homologous fragments were found to be colinear between the genes from the two species. The nucleotide sequence of a short region of thewhite gene ofL. cuprina has been determined, and the homology to the corresponding region ofD. melanogaster is 72%; at the derived amino acid level the homology is greater (84%) due to a marked difference in codon usage between the species. A major difference in genome organization between the two species is that whereas the DNA encompassing theD. melanogaster genes is free of repeated sequences. that encompassing theirL. cuprina counterparts contains substantial amounts of repeated sequences. This suggests that the genome ofL. cuprina is organized on the short period interspersion pattern. Repeated sequence DNA elements, which appear generally to be short (less than 1 kb) and which vary in repetitive frequency in the genome from greater than 10⁴ copies to less than 10² copies, are found in at least two different locations in the clones carrying these genes. One type of repeat structure, found by sequencing, consists of tandemly repeating short sequences. Restriction site and restriction fragment length polymorphisms involving both thewhite andtopaz gene regions are found within and between populations ofL. cuprina.     

Molecular and genetic studies on the euchromatin-heterochromatin transition region of the X chromosome of Drosophila melanogaster

A recombinant Charon 4 bacteriophage has been isolated on the basis of RNAs which are enriched in the head of the adult Drosophila melanogaster and hence are likely to be of neural origin. The cloned insert maps to the near vicinity of the uncoordinated locus in polytene chromosome band 19E8. This band is within the transition zone between the euchromatic and heterochromatic regions of the X chromosome, a region which has been well characterized cytogenetically. The insert contains both repetitious and low copy number sequences, some of which vary extensively in both frequency and restriction fragment size between different laboratory strains. One particular family of moderately repeated sequences occurs predominantly in divisions 19 and 20 of the X chromosome and perhaps the distally located X heterochromatin. The molecular landscape surrounding the initial entry point contains many repeated sequences and is thus unlike those observed in most published chromosomal walks. The possible significance of the presence of repeated sequence families in the distinct properties of this region are discussed.     

Nucleotide sequence and functional properties of DNA encoding incompatibility in the broad host-range plasmid R1162

Summary A 370 base pair (bp) fragment of R1162 DNA encoding the incompatibility determinant has been cloned and sequenced. The DNA is located between 6.1 and 6.5 on the R1162 map, near the origin of replication. The sequence contains three perfectly conserved 20 bp direct repeats, with 11 bp of this sequence repeated a fourth time. The direct repeat unit shows some homology with that of another, unrelated broad host-range plasmid, RK2. The cloned DNA has two other properties: it lowers the copy number of R1162 when cloned into this plasmid, and it is required in cis for replication of R1162 satellite plasmids.     

Sequence and evolution of related bovine and caprine satellite DNAs: Identification of a short DNA sequence potentially involved in satellite DNA amplification

The satellite II DNAs of the domestic ox Bos taurus and sheep Ovis aries have been sequenced, and that of the domestic goat Capra hircus partially sequenced. All three are related, and consist of repeat units of about 700 base-pairs. There is no evidence of internal repetition within these repeat units. When matched for maximum homology, the goat and sheep sequences show 83% homology, whereas the ox and sheep sequences share only 70% homology. Factors contributing to the uncertainty of the exact homology between these sequences are discussed, but the results are nevertheless consistent with their progenitor sequence being present in the common ancestor of cattle and sheep. Goat satellite II DNA is shown to contain another, unrelated, tandemly repeated sequence, which is composed of 22 base-pair repeat units. Both this sequence and a region of ox satellite II share good homology with the 11 base-pair progenitor sequence of ox 1.706 g/cm³ satellite DNA. It is suggested that this shared sequence could play a role in bovine satellite DNA amplification.     

The location of highly repetitious DNA in the somatic chromosomes of Drosophila melanogaster

In situ hybridization of Drosophila melanogaster somatic chromosomes has been used to demonstrate the near exact correspondence between the location of highly repetitious DNA and classically defined constitutive heterochromatin. The Y chromosome, in particular, is heavily labeled even by cRNA transcribed from female (XX) DNA templates (i.e., DNA from female Drosophila with 2 Xs and 2 sets of autosomes). This observation confirms earlier reports that the Y chromosome contains repeated DNA sequences that are shared by other chromosomes. In grain counting experiments the Y chromosome shows significantly heavier label than any other chromosome when hybridized with cRNA from XY DNA templates (i.e., DNA from male Drosophila with 1 X and 1 Y plus 2 sets of autosomes). However, the preferential labeling of the Y is abolished if the cRNA is derived from XX DNA. We interpret these results as indicating the presence of a class of Y chromosome specific repeated DNA in D. melanogaster. The relative inefficiency of the X chromosome in binding cRNA from XY and XYY DNA templates, coupled with its ability to bind XX derived cRNA, may also indicate the presence of an X chromosome specific repeated DNA.     

Species-specific, symbiotic plasmid-located repeated DNA sequences in Rhizobium trifolii

Summary A repeated DNA sequence has been characterized in the clover symbiont, Rhizobium trifolii. Analysis of three copies of this repeated sequence revealed that it constitutes a reiteration of the nifHDK promoter region and, in some copies, an additional reiteration of the N-terminal end of the nifH gene. This sequence, as exemplified by the nifHDK promoter region, is highly conserved within all the geographically-distinct isolates of R. trifolii examined, and is located exclusively on the Sym (symbiotic) plasmid. The R. trifolii repeated sequences (designated RtRS) were shown by DNA hybridization analysis to be specific for R. trifolii and not to hybridize to DNA of any other fastgrowing Rhizobium species examined. Based on the observed species-specificity and Sym-plasmid location of these sequences, as well as the available genetic evidence, we propose a model in which the expression of symbiotic genes is host-specifically activated via these species-specific repeated (promoter) sequences. The results presented indicate that the RtRS sequences can be used as a molecular probe for both species and strain identification and should facilitate the molecular taxonomy of Rhizobium.Dedicated to Professor Georg Melchers to celebrate his 50-year association with the journal     

Cloning and characterization of a linear 2.3 kb mitochondrial plasmid of maize

Summary A linear 2.3 kb DNA molecule found in maize mitochondria was cloned into pUC8. A natural deletion of this plasmid, found in cmsT and some N (fertile) types of maize plants, was mapped to one end of the plasmid. A minor sequence homology to S-2, another linear mitochondrial plasmid, was detected, as well as more significant sequence homology with chloroplast and maize nuclear DNA. Hybridization to teosinte mitochondrial DNA (mtDNA) revealed the presence of part of the maize plasmid in the high molecular weight mtDNA of the maize relatives. RNA dot hybridization indicates that the plasmid is transcribed in mitochondria. The termini of the 2.3 kb linear plasmid contain inverted repeated sequences; of the first 17 nucleotides of the termini, 16 are identical to the terminal inverted repeats of the linear S plasmids found in the mitochondria of cmsS maize plants.     

Chromosomal localizations by in situ hybridization of the repetitious human DNA families and evidence of their satellite DNA equivalents

Four of the five major repetitious human DNA families, have been mapped by the in situ hybridization technique at their T_OPT values. Two of the lighter density DNA families have autoradiographic grain patterns over heterochromatic chromosomal regions that resemble those of known satellite DNAs. The two heaviest density DNA families have autoradiographic grain patterns of middle repetitious DNAs, with all chromosomes showing labelling. Some evidence suggests that one of these DNA families is concentrated in certain chromosomal regions. Both DNA families exhibit biphasic T_OPT curves. The presence of two thermal stability classes of hybrids suggests sequence interspersion. By co-enrichment studies in Ag⁺-Cs₂SO₄ gradients, evidence suggests the origin of the three lightest density renaturated human DNA families to be satellites I, II and III.     

Regions of DNA sequence homology between an octopine and a nopaline Ti plasmid of Agrobacterium tumefaciens

Summary Despite the fact that pTiC58 and pTiB6S3 functionally, have been shown to date to have only tumorigenicity and phage AP1 exclusion in common, many restriction fragments of the plasmids contain DNA sequences common to both. The bulk of this homologous DNA is concentrated in a few restriction endonuclease fragments and the remainder is organized in short discontinuous regions spread over many fragments. In pTiB6S3 the bulk of the homology is distributed throughout a 29x10⁶ dalton segment comprising 8 Sma I fragments. This region includes those sequences which are transferred to and transcribed in tumorigenic plant cells induced by B6-806 or closely related strains. The pattern of homology within this portion of the plasmid shows a region of low sequence homology (Sma I Fragment 3 b) apparently corresponding to the gene or genes coding for octopine synthesis in the plant tumor cells, surrounded by regions of high sequence homology. The extent of inter-plasmid homology then decreases with increasing distance from fragment 3b. The remainder of the homology is distributed throughout a segment of maximum size 21.5x10⁶ daltons comprising two Sma I fragments and cannot yet be definitely linked with any specific plasmid function.     

Chromatographic resolution of nucleic acids extracted from Penicillium chrysogenum

Summary High molecular weight DNA extracted from Penicillium chrysogenum has been fractionated using RPC-5 Analog, into three distinct types designated 1, 2 and 3. Types 1 and 2 have the same buoyant density of 1.710 g/cm³ and together appear to comprise the nuclear DNA. Type 1 is enriched for repeated sequences which are normally observed in restriction digests of P. chrysogenum total DNA. Conversely, type 2 appears to be composed entirely of non-repetitive sequences. Type 3 has been identified as mitochondrial DNA, having a buoyant density of 1.695 g/cm³ and an estimated molecular weight of 31.6×10⁶ Daltons.     

Localisation of satellite DNA in the microchromosomes of the Japanese quail by in situ hybridization

In situ hybridisation of radioactive complementary RNA has been used to localise the G-C rich repetitious DNA satellite in chromosomes of the Japanese quail. The satellite sequences are located predominantly in the microchromosomes. No cross hybridisation is found with duck or chicken microchromosomes. The relationship between repetitious DNA, heterochromatin and nucleolus-organisation is discussed.