Molecular and cytological characterization of repetitive DNA sequences in Brassica

Summary We isolated three different repetitive DNA sequences from B. campestris and determined their nucleotide sequences. In order to analyze organization of these repetitive sequences in Brassica, Southern blot hybridization and in situ hybridization with metaphase chromosomes were performed. The sequence cloned in the plasmid pCS1 represented a middle repetitive sequence present only in B. campestris and not detected in closely related B. Oleracea. This sequence was localized at centromeric regions of six specific chromosomes of B. campestris. The second plasmid, pBT4, contained a part of the 25S ribosomal RNA gene, and its copy number was estimated to be 1,590 and 1,300 per haploid genome for B. campestris and B. oleracea, respectively. In situ hybridization with this sequence showed a clear signal at the NOR region found in the second largest chromosome of B. Campestris. The third plasmid, pBT11, contained a 175-bp insert that belongs to a major family of tandem repeats found in all the Brassica species. This sequence was detected at centromeric regions of all the B. campestris chromosomes. Our study indicates that in situ hybridization with various types of repetitive sequences should give important information on the evolution of repetitive DNA in Brassica species.     

Molecular cytogenetic characterization of telomere-specific repetitive DNA sequences in Rana rugosa

We performed a molecular cloning of the glutamic oxaloacetic transaminase (GOT1) gene from R. rugosa, and determined its chromosomal location. This gene was reportedly localized near the sex-determining region of the ZW sex chromosomes in the frog Buergeria buergeri; however, the GOT1 gene was mapped to the distal end of chromosome 9 in R. rugosa using a GOT1 cDNA FISH probe. This was also the case when a 46.3?kb genomic clone containing exon 8 and 9 and the 3'-neighboring region of the GOT1 gene, designated clone B, was used as probe. However, weak signals were also detected at the telomeric ends of other autosomes and the Z sex chromosome, and near the centromeric region of the W sex chromosome. To intensify the signals, we used eight internal fragments in clone B and applied them to chromosome mapping. Consequently, only two fragments containing repeated sequence blocks produced hybridization signals; those signals were observed on autosomes and ZW sex chromosomes. The 3'-neighboring region contained two types of repeated sequence elements: a 41?bp element, designated 41-REL, localized to telomeric ends of autosomes and a 31?bp element, designated 31-REL, localized to telomeric ends of all autosomes and the ZW sex chromosomes, and also near the centromere on the W long arm. The results collectively suggest that the two repeated sequence elements were independently amplified around the chromosomal telomeres in R. rugosa, indicating that they will be useful cytogenetic markers for studying karyotypic evolution-especially the W chromosome differentiation-in this species.     

Isolation of repetitive DNA sequences from human chromosome 21.

We have developed a method for the isolation of phage from the human genomic library that carry repetitive DNA sequences highly represented on specific human chromosomes. We have used this technique to select recombinants carrying inserts concentrated on chromosome 21. Five clones, representing two families of sequences, have been characterized. Members of each family show cross-homology, but the two families show no homology with each other. In all but one case, the clones do not contain members of the human Alu repeat family. Single chromosome-concentrated repetitive sequences should prove to be useful in studies of the origin, evolution, and function of repetitive DNA and in regional chromosome mapping.     

Isolation and characterization of repetitive DNA sequences from Panax ginseng

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 and evolution of the genome of interest. We report the isolation and characterization of the major classes of repetitive sequences from the genome of Panax ginseng. The isolation of repetitive DNA from P. ginseng was achieved by the reannealing of chemically hydrolyzed (200 bp-1 kb fragments) and heat-denatured genomic DNA to low C(o)t value. The low C(o)t fraction was cloned, and fifty-five P. ginseng clones were identified that contained repetitive sequences. Sequence analysis revealed that the fraction includes repetitive telomeric sequences, species-specific satellite sequences, chloroplast DNA fragments and sequences that are homologous to retrotransposons. Two of the retrotransposon-like sequences are homologous to Ty1/ copia-type retroelements of Zea mays, and six cloned sequences are homologous to various regions of the del retrotransposon of Lilium henryi. The del retrotransposon-like sequences and several novel repetitive DNA sequences from P. ginseng were used to differentiate P. ginseng from P. quinquefolius, and should be useful for evolutionary studies of these disjunct species.     

Molecular characterization and chromosomal distribution of species-specific repetitive DNA sequences from Beta corolliflora, a wild relative of sugar beet.

Repetitive DNA sequences have been isolated from a Sau3AI plasmid library of tetraploid Beta corolliflora (2n = 4x = 36), a wild relative of sugar beet (B. vulgaris). The library was screened by differential hybridization with genomic DNA of B. corolliflora and B. vulgaris. When used as probes for Southern hybridization of genomic DNA, six clones were determined to represent highly repetitive DNA families present only in the B. corolliflora genome. Five other sequences were highly repetitive in B. corolliflora and low or single copy in B. vulgaris. The insert size varied between 43 bp and 448 bp. Two sequences pBC1279 and pBC1944 displayed strong homology to a previously cloned satellite DNA from B. nana. With one exception, sequences are tandemly arranged as revealed by a typical ladder pattern after genomic Southern hybridization. The chromosomal distribution of five probes was determined by fluorescence in situ hybridization (FISH) of mitotic metaphases from B. corolliflora and a triploid hybrid between B. vulgaris and B. corolliflora. Three sequences were spread along all chromosome arms of B. corolliflora while one sequence was present on only six chromosomes. The chromosome-specific sequence pBC216 was found in close vicinity to the 5S rDNA located on B. corolliflora chromosome IV. This set of species-specific sequences has the potential to be used as probes for the identification of monosomic alien addition lines and for marker-assisted gene transfer from wild beet to cultivated beet.     

Cloning and characterization of maize B chromosome sequences derived from microdissection

Isolation of sequences from the maize B chromosome is always hampered by its high homology with the normal complements. In this study, this handicap was overcome by cloning the sequences from the pachytene B chromosomes dissected out of a slide by a micromanipulator followed by degenerate oligonucleotide-primed PCR. The isolated sequences were found to hybridize with genomic DNA in a B-dosage-dependent manner and with the pachytene B chromosome by fluorescence in situ hybridization (FISH), corroborating their B origin. A total of 19 B sequences were isolated, all of which are repetitive and, with one exception, are homologous to the A chromosome(s). Three sequences have strong homology to maize sequences that include two knob repeats and one zein gene (noncoding region), and 10 others are homologous to the noncoding region of Adh1, Bz1, Gag, Zein, and B centromere to a lesser degree. Six sequences have no homology to any gene. In addition to FISH, the B-specific sequence and a partially B-specific one were also mapped, by seven newly characterized TB-10L translocations, to a similar location on the central portion of the distal heterochromatic region, spreading over a region of about one-third of the B chromosome.     

Molecular characterization of DNA sequences from the Primula vulgaris S-locus

Primula species provide possibly the best known examples of heteromorphic flower development and this breeding system has attracted considerable attention, including that of Charles Darwin. However, despite considerable recent advances in molecular genetics, nothing is known about the molecular basis of floral heteromorphy. The first molecular marker for the Primula S-locus is reported here. This DNA sequence was identified by random amplification of polymorphic DNA (RAPD)-PCR, further defined as a sequence characterized amplified region (SCAR) marker, and subsequently shown to correspond to a restriction fragment length polymorphism (RFLP) that is linked to the thrum allele of the Primula S-locus. The sequence of 8.8 kb of genomic DNA encompassing this thrum-specific RFLP is presented. Analysis of this DNA reveals a highly repetitive sequence structure similar to that found at the S-locus in other species; it also contains sequences similar to elements of a Gypsy-like retrotransposon. The identification of a specific DNA sequence associated with the thrum allele of the Primula S-locus provides the first molecular probe with which to investigate the molecular basis of heteromorphic flower development in Primula.     

Molecular and cytogenetic characterization of repetitive DNA sequences from Lolium and Festuca: applications in the analysis of Festulolium hybrids

Summary A set of species-specific repetitive DNA sequences was isolated from Lolium multiflorum and Festuca arundinacea. The degree of their species specificity as well as possible homologies among them were determined by dot-blot hybridization analysis. In order to understand the genomic organization of representative Lolium and Festuca-specific repetitive DNA sequences, we performed Southern blot hybridization and in situ hybridization to metaphase chromosomes.Southern blot hybridization analysis of eight different repetitive DNA sequences of L. multiflorum and one of F. arundinacea indicated either tandem and clustered arrangements of partially dispersed localization in their respective genomes. Some of these sequences, e.g. LMB3, showed a similar genomic organization in F. arundinacea and F. pratensis, but a slightly different organization and degree of redundancy in L. multiflorum. Clones sequences varied in size between 100 bp and 1.2 kb. Estimated copy number in the corresponding haploid genomes varied between 300 and 2×10⁴. Sequence analysis of the highly species-specific sequences from plasmids pLMH2 and pLMB4 (L. multiflorum specific) and from pFAH1 (F. arundinacea specific) revealed some internal repeats without higher order. No homologies between the sequences or to other repetitive sequences were observed. In situ hybridization with these latter sequences to metaphase chromosomes from L. multiflorum, F. arundinacea and from symmetric sexual Festulolium hybrid revealed their relatively even distribution in the corresponding genomes. The in situ hybridization thus also allowed a clearcut simple identification of parental chromosomes in the Festulolium hybrid.The potential use of these species-specific clones as hybridization probes in quantitative dot-blot analysis of the genomic make-up of Festulolium (sexual and somatic) hybrids is also demonstrated.Abbreviations bp Base pair (s) - CMA chromomycin A₃ - DAPI 4,6-diamidino-2-phenylindole - IPTG isopropyl -D-thio-galactopyranoside - kb kilobase pair(s) - NBT nitroblue tetrazolium chloride - X-gal 5-bromo-4-chloro-3-inonyl -D-galactopyranoside     

DNA profiling by detection of repetitive nucleotide sequences on human chromosome 6

Genetic/genomic polymorphism, i.e. variations in DNA sequences are ideally assayed by direct nucleotide sequencing of a gene region or other homologous segment of the genome. An easier and cheaper approach, however, if the variants are analyzed by hybridization technology using restriction fragment length polymorphisms (RFLPs) or by detection of the number of tandem repeats (VNTR) of small DNA segments, the "minisatellites". In this study we describe results of the DNA analysis of repetitive sequences of human 6th chromosome by the application of a chemiluminescent labeled probes. The allele frequency distribution of polymorphic DNA sequences has been determined in unrelated individuals. The isolated genomic DNA was cut with Pst I restriction enzyme, size fractionated on agarose gel and hybridized with a chemiluminescent labeled D6 S132 probe. At this locus the Pst I cleaved DNA fragments are ranging from 1841 to 6098 base pairs (bp). Specific genetic pattern was characterized by more frequent fragments (3313 and 3884 bp), and the rarely occurring ones (clustered between 1841-2595 and 5227-6098 bp). Our study provides a further possibility for characterization of individual genomic patterns.     

Molecular cloning of zebra finch W chromosome repetitive sequences: evolution of the avian W chromosome

The zebra finch (Taeniopygia guttata) has a large Z chromosome and highly condensed W chromosome. We used the random amplified polymorphic DNA (RAPD) polymerase chain reaction (PCR) technique to isolate female-specific sequences ZBM1 and ZBM2. Southern blot hybridization to male and female zebra finch genomic DNA suggested that these sequences were located on the W chromosome, although homologous sequences appeared to be autosomal or Z-linked. Fluorescent in situ hybridization (FISH) using bacterial artificial chromosome (BAC) clones corresponding to ZBM sequences showed hybridization to the whole W chromosome, suggesting that the BACs encode sequences that are repeated across the entire W chromosome. Based on the sequencing of a ZBM repetitive sequence and Z chromosome derived BAC clones, we demonstrate a random distribution of repeat sequences that are specific to the W chromosome or encoded by both Z and W. The positions of ZW-common repeat sequences mapped to a noncoding region of a Z chromosome BAC clone containing the CHD1Z gene. The apparent lineage-specificity of W chromosome repeat sequences in passerines and galliform birds suggest that the W chromosome had not differentiated well from the Z at the time of divergence of these lineages. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Isolation and characterization of DNA sequences from flow-sorted human chromosome 22 libraries

Two flow-sorted chromosome 22 libraries were used to isolate DNA sequences specific for chromosome 22. 45-phage DNAs were probed against human genomic DNA. 12 of them showed unique or low-copy character. Using digested DNA from rodent-human hybrid cell lines, 3 of the 12 recombinants were assigned unique to chromosome 22 and regionally mapped. 1 clone mapped to 22pter-q11, 1 clone to 22q12-qter and 1 clone, for which in situ hybridization was performed, to 22q13.1. 2 low-copy probes, 1 of them displaying polymorphisms in MspI and TaqI digests of individual DNAs, must have similar sequences on 22 and additional chromosomes. Furthermore, a highly repetitive DNA representing a compound locus of some hundred kilobases on chromosome 22 was isolated. These 6 probes may provide useful tools for studying the structure and function of this small chromosome involved in a relatively high number of inherited and acquired diseases.     

Nucleotide sequences of highly repetitive DNA from scleractinian corals

The staghorn coral genome contains 5% of a satellite DNA, consisting of 80 to 300 x 10(3) copies of a 118-bp repeat unit per haploid Acropora genome.     

Comparative analysis of B1- and B2-like repetitive sequences in DNA from different organisms

Sequences homologous to short repeated elements of the mouse genome, B1 and B2, were detected in DNA of different organisms by dot-hybridization. The sequences B1 and B2 hybridized most efficiently with DNA of Myomorpha rodents and primates. The hybridization was also observed with DNA of all other eukaryotes studied, however, it is probably caused by an existence of short homologies with the B1 and B2 sequences only. The effective hybridization of the B1 sequence with DNA of primates is apparently explained by a presence of numerous copies of Alu sequence in their genomes. A repeated sequence of the human DNA that is able to hybridize with B2 sequence was cloned. It was designated as HsB2 sequence. There are about 5000 copies of this sequence in the human genome. To estimate the degree of homology, the melting temperature of hybrids of sequences B1 and B2 with DNA of rodents and some other mammals was measured. It was found that the degree of homology of B2 sequence (but not B1) correlated well with the phylogenetic relationship of the organisms. Perhaps, the difference of evolution of these sequences results from their structural and functional peculiarities.     

Molecular cytogenetic characterisation of Salix viminalis L. using repetitive DNA sequences

Salix viminalis L. (2n?=?38) is a diploid dicot species belonging to the Salix genus of the Salicaceae family. This short-rotation woody crop is one of the most important renewable bioenergy resources worldwide. In breeding for high biomass productivity, limited knowledge is available on the molecular cytogenetics of willow, which could be combined with genetic linkage mapping. The present paper describes the adaptation of a fluorescence in situ hybridisation (FISH) protocol as a new approach to analyse the genomic constitution of Salix viminalis using the heterologous DNA clones pSc119.2, pTa71, pTa794, pAs1, Afa-family, pAl1, HT100.3, ZCF1 and the GAA microsatellite marker. Three of the nine probes showed unambiguous signals on the metaphase chromosomes. FISH analysis with the pTa71 probe detected one major 18S-5.8S-26S rDNA locus on the short arm of one chromosome pair; however, the pTa794 rDNA site was not visible. One chromosome pair showed a distinct signal around the centromeric region after FISH with the telomere-specific DNA clone HT100.3. Two chromosome pairs were found to have pAs1 FISH signals, which represent a D-genome-specific insert from Aegilops tauschii. Based on the FISH study, a set of chromosomes with characteristic patterns is presented, which could be used to establish the karyotype of willow species.     

Matrix-associated DNA from maize is enriched in repetitive sequences

In order to elucidate some features of the topological organization of DNA within the plant nucleus, DNA fragments involved in the attachment of the DNA loops to the nuclear matrix in maize were studied. The matrix-associated DNA from dry embryo and meristematic cells after extensive digestion with DNase I and high salt treatment was about 2% of the total DNA, sized within the range of 50 and 250 bp. This DNA was found to be enriched in repetitive DNA sequences, both for nuclei from dry embryo and meristematic cells. The loop size of the DNA in cells of Zea mays appeared to be between 5 and 25 kbp.Abbreviations EDTA Diamino-ethanetetraacetic acid - EtBr Ethidium bromide - LIS Lithium diiodosalicylate - PMSF Phenylmethylsulfonyl fluoride - SDS Sodium dodecyl sulfate     

A novel centromeric repetitive DNA from human chromosome 22

A recombinant DNA clone localized in the centromeric region of chromosome 22 was isolated from a flow-sorted human chromosome 22 DNA library. When the original insert of about 1.9 kb was used to probe Southern blots of EcoRI-digested genomic DNA it revealed at least 40 fragments. A comparable pattern was obtained with each of the three subclones (800, 700, and 380 bp). In situ hybridization showed signals clustered in the region 22cen. DNA sequence analysis using the 380 bp fragment subcloned in pTZ18/19 (p22hom48.4) revealed eight copies of a 48 bp repeat and the size of hybridizing restriction fragments indicated that this tandemly repeated sequence is spread over a region of a few hundred kilobases. Whereas this novel DNA, termed D22Z3, displayed no sequence homology to rodent and monkey genomes cross-homology was discernible for DNA from two great ape species.     

A non-alphoid repetitive DNA sequence from human chromosome 21

Summary A non-alphoid repetitive DNA from human chromosome 22, consisting of a 48-bp motif, shows homology to both G-group chromosomes in the gorilla, thus indicating the presence of additional repeat family members on further human chromosomes. Therefore, we screened a chromosome-21-specific cosmid library using this repetitive sequence from chromosome 22 (D22Z3). Some 40–50 cosmid clones were positive in tests for hybridization. One of the clones giving the strongest signals was digested with EcoRI/PstI, which we knew to cut frequently within the repeats; this resulted in fragments containing repeat units only. The fragments were subcloned into plasmid vector pTZ 19. Sequence-analysis of a 500-bp insert showed ten copies of a 48-bp repeat similar to D22Z3, with about 15% sequence deviation from the chromosome 22 consensus sequence. In situ hybridization of the newly isolated recombinant established its chromosome 21 specifity at high stringency. Physical mapping by pulsed field gel electrophoresis placed this new repeat in close vicinity to the chromosome 21 alphoid repeat. No cross-hybridization with other mammalian genomes except for those of apes was observed. The locus has been designated D21Z2 by the Genome Data Base. A gel mobility shift assay indicated that this repetitive motif has protein-binding properties.     

Prototypic sequences for human repetitive DNA

Summary We report a collection of 53 prototypic sequences representing known families of repetitive elements from the human genome. The prototypic sequences are either consensus sequences or selected examples of repetitive sequences. The collection includes: prototypes for high and medium reiteration frequency interspersed repeats, long terminal repeats of endogenous retroviruses, alphoid repeats, telomere-associated repeats, and some miscellaneous repeats. The collection is annotated and available electronically.[/ap ]Offprint requests to: J. Jurka     

Isolation and characterization of two middle repetitive DNA sequences of nuclear tobacco genome

Summary Two DNA sequences, R8.1 and R8.3, representing two distinct classes of tobacco genomic repeated DNA, were cloned and characterized by Southern blot analysis. Both R8.1 and R8.3 were found to be homologous to the Nicotiana tomentosiformis component of the allotetraploid Nicotiana tabacum genome, and each of them represents about 0.3% of nuclear DNA. The R8.1 and R8.3 differ in the mode of distribution in chromosomes, as revealed by in situ DNA/DNA hybridization.     

DNA of Akodon (Rodentia, Cricetidae). II. Molecular hybridization of repetitive DNA sequences

Interspecies repetitive DNA homology was studied in akodont rodents related at generic and suprageneric levels. The homology was determined by taking the species Akodon molinae as the reference species. The 3H-DNA/DNA hybridization on filters showed a closer relationship between A. molinae and A. azarae, A. dolores and A. mollis than between A. molinae and Bolomys obscurus. These data agree with the taxonomical ranking of the species. The quantity and quality of the hybrid DNAs were measured by investigating their thermal stabilities and subsequent comparison to the results obtained on the reference species. These data indicate high similitude between the repetitive DNA of A. dolores and A. molinae. Increasing differences were shown to occur in the repetitive DNA of A. mollis, B. obscurus and A. azarae, respectively. Since these results coincide with the G-banding homologies and differ slightly from the taxonomical rank, it is speculated that the divergency between the DNA of A. molinae and A. azarae is the result of a differential process of DNA amplification which is not related to the phylogenetical distance separating the two species.