Nuclear DNA characterization of two species ofVicia:Vicia bithynica L. andVicia narbonensis L.

The speciesVicia bithynica andVicia narbonensis, from the same subgeneric section ofVicia faba, show variations in nuclear DNA content Nuclear DNAs, extracted from root tips of the twoVicia species, were characterized by thermal denaturation, analytical ultracentrifugation and reassociation kinetics. The thermal denaturations of DNA, the number of DNA components reassociating with second order kinetics, the proportion of repeated DNA sequences, the frequency of the repeated DNA classes are reported and compared to previous data onVicia faba DNA. Feulgen absorptions at different thresholds of optical density⁺ of interphase nuclei in cytological preparations of the root meristems ofV. bithynica andV. narbonensis are determined and compared withV. faba analogous determinations. The results, confirming that plant genome is highly flexible, are discussed in relation to other data on the interspecific variations of the nuclear DNA content.     

Cloning and Characterization of New Repetitive Sequences in Field Bean (Vicia fabaL.)

Five new repetitive sequences have been isolated from theViciafabagenome, by cloning bands visible on agarose gel electrophoresisafter digestion of genomic DNA with various restriction enzymes.The sequences were 109 to 584 bp long, their abundance rangingfrom 5x10⁴to 5x10⁵copies per haploid genome. Southern blot andinsituhybridization revealed that four of five newly isolatedrepeats were dispersed in theV. fabagenome. One of the repeats(TIII15) showed tandem organization with several major hybridizationspots on mitotic chromosomesin situ.These sites were distributedin euchromatic as well as in heterochromatic chromosomal regions,and in several loci they were simultaneously localized withpreviously describedFokI repeated elements. The sequence ofTIII15 comprises four 26–27 bp subrepeats, but sharesno homology toFokI elements which have similar sequence organization.All newly described sequences were highly specific forV. faba,withlittle or no hybridization to DNA of otherViciaspecies, andno hybridization to DNA of other legumes tested.Copyright 1999Annals of Botany Company Vicia faba, field bean, repeated DNA sequences, FISH, PRINS, genome organization, copy number.     

Microarray-based survey of repetitive genomic sequences in Vicia spp.

A modified DNA microarray-based technique was devised for preliminary screening of short fragment genomic DNA libraries from three Vicia species (V. melanops, V. narbonensis, and V. sativa) to isolate representative highly abundant DNA sequences that show different distribution patterns among related legume species. The microarrays were sequentially hybridized with labeled genomic DNAs of thirteen Vicia and seven other Fabaceae species and scored for hybridization signals of individual clones. The clones were then assigned to one of the following groups characterized by hybridization to: (1) all tested species, (2) most of the Vicia and Pisum species, (3) only a few Vicia species, and (4) preferentially a single Vicia species. Several clones from each group, 65 in total, were sequenced. All Group I clones were identified as rDNA genes or fragments of chloroplast genome, whereas the majority of Group II clones showed significant homologies to retroelement sequences. Clones in Groups III and IV contained novel dispersed repeats with copy numbers 10²–10⁶/1C and two genus-specific tandem repeats. One of these belongs to the VicTR-B repeat family, and the other clone (S12) contains an amplified portion of the rDNA intergenic spacer. In situ hybridization using V. sativa metaphase chromosomes revealed the presence of the S12 sequences not only within rDNA genes, but also at several additional loci. The newly identified repeats, as well as the retroelement-like sequences, were characterized with respect to their abundance within individual genomes. Correlations between the repeat distributions and the current taxonomic classification of these species are discussed.     

Patterns of tandem repetition in plant whole genome assemblies

Tandem repeats often confound large genome assemblies. A survey of tandemly arrayed repetitive sequences was carried out in whole genome sequences of the green alga Chlamydomonas reinhardtii, the moss Physcomitrella patens, the monocots rice and sorghum, and the dicots Arabidopsis thaliana, poplar, grapevine, and papaya, in order to test how these assemblies deal with this fraction of DNA. Our results suggest that plant genome assemblies preferentially include tandem repeats composed of shorter monomeric units (especially dinucleotide and 9–30-bp repeats), while higher repetitive units pose more difficulties to assemble. Nevertheless, notwithstanding that currently available sequencing technologies struggle with higher arrays of repeated DNA, major well-known repetitive elements including centromeric and telomeric repeats as well as high copy-number genes, were found to be reasonably well represented. A database including all tandem repeat sequences characterized here was created to benefit future comparative genomic analyses.     

Utility of DNA amplified by degenerate oligonucleotide-primed PCR (DOP-PCR) from the total genome and defined chromosomal regions of field bean

Degenerate oligonucleotide primed (DOP)-PCR has emerged as a simple and rapid method for representative amplification of highly complex genomic DNA from humans, mice and Drosophila. The present paper describes the adaptation of this method for use on a plant species, Vicia faba, with a large genome (2C = 30 pg). Specific low-copy-number sequences as well as highly repeated sequences were detectable among DOP-PCR products obtained from small samples of purified genomic DNA (100 pg), DNA from 10 prophase nuclei, 10 flow-sorted chromosomes or 15 microdissected chromosome segments (satellites) following reamplification with sequence-specific primers and/or Southern hybridization. Biotinylated chromosome-specific DOP-PCR products were used for fluorescent in situ hybridization. All chromosomes showed hybridization signals, with the exception of regions containing Fok elements which are not present in the chromosomal DNA targeted by DOP-PCR.     

Satellite DNA and chromosomes in Neotropical fishes: methods,applications and perspectives

Constitutive heterochromatin represents a substantial portion of the eukaryote genome, and it is mainly composed of tandemly repeated DNA sequences, such as satellite DNAs, which are also enriched by other dispersed repeated elements, including transposons. Studies on the organization, structure, composition and in situ localization of satellite DNAs have led to consistent advances in the understanding of the genome evolution of species, with a particular focus on heterochromatic domains, the diversification of heteromorphic sex chromosomes and the origin and maintenance of B chromosomes. Satellite DNAs can be chromosome specific or species specific, or they can characterize different species from a genus, family or even representatives of a given order. In some cases, the presence of these repeated elements in members of a single clade has enabled inferences of a phylogenetic nature. Genomic DNA restriction, using specific enzymes, is the most frequently used method for isolating satellite DNAs. Recent methods such as C₀t–1 DNA and chromosome microdissection, however, have proven to be efficient alternatives for the study of this class of DNA. Neotropical ichthyofauna is extremely rich and diverse enabling multiple approaches with regard to the differentiation and evolution of the genome. Genome components of some species and genera have been isolated, mapped and correlated with possible functions and structures of the chromosomes. The 5SHindIII‐DNA satellite DNA, which is specific to Hoplias malabaricus of the Erythrinidae family, has an exclusively centromeric location. The As51 satellite DNA, which is closely correlated with the genome diversification of some species from the genus Astyanax, has also been used to infer relationships between species. In the Prochilodontidae family, two repetitive DNA sequences were mapped on the chromosomes, and the SATH 1 satellite DNA is associated with the origin of heterochromatic B chromosomes in Prochilodus lineatus. Among species of the genus Characidium and the Parodontidae family, amplifications of satellite DNAs have demonstrated that these sequences are related to the differentiation of heteromorphic sex chromosomes. The possible elimination of satellite DNA units could explain the genome compaction that occurs among some species of Neotropical Tetraodontiformes. These topics are discussed in the present review, showing the importance of satellite DNA analysis in the differentiation and karyotype evolution of Actinopterygii.     

Physical Analysis of the Campoletis sonorensis Virus Multipartite Genome and Identification of a Family of Tandemly Repeated Elements

This report is an analysis of cross-hybridizing sequences found within the 28 superhelical (SH) DNAs of the multipartite genome of the polydnavirus Campoletis sonorensis virus (CsV). A Southern cross-blot hybridization analysis showed that the majority of CsV EcoRI restriction fragments cross-hybridize to multiple EcoRI fragments. These sequence homologies were analyzed by hybridizing recombinant clones of the CsV SH DNAs B, H, M, and O¹ to Southern blots of undigested CsV DNA, using different hybridization stringencies. The results indicated that homologous regions among the SH DNAs include closely related sequences that are detectable under stringent conditions and related but more diverged sequences which are only detectable under reduced stringencies. A sequence that hybridized to the majority of the CsV SH DNAs was identified and subcloned from the SH DNAs O¹, H, and B. Nucleotide sequence data revealed that these homologous regions contained a family of imperfectly conserved repeated elements. These repeat elements were arranged singly or in direct tandem arrays and had an average length of 540 base pairs. Within the sequenced regions that contained the repeated elements six putative open reading frames were identified. These results show that the CsV genome consists of SH DNAs with complex sequence interrelationships that may have arisen due to multiple recombinational events.     

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.     

Dispersity of repeat DNA sequences in Oncopeltus fasciatus,an organism with diffuse centromeres

DNA of Oncopeltus fasciatus, an organism with diffuse centromeres, has been characterized by determination of its base composition, buoyant density, thermal stability, and reassociation kinetics; renatured DNA was characterized similarly. We conclude that repeated sequences are primarily short and scattered throughout the genome. This is in contrast to the extensive tandem repeats which are found in DNAs of organisms with discrete centromeres.     

Molecular-cytogenetic characterization of a higher plant centromere/kinetochore complex

The centromeric region of a telocentric field bean chromosome that resulted from centric fission of the metacentric satellite chromosome was microdissected. The DNA of this region was amplified and biotinylated by degenerate oligonucleotide-primed polymerase chain reaction (DOP-PCR)/linker-adapter PCR. After fluorescence in situ hybridization (FISH) the entire chromosome complement of Vicia faba was labelled by these probes except for the nucleolus organizing region (NOR) and the interstitial heterochromatin, the chromosomes of V. sativa and V. narbonensis were only slightly labelled by the same probes. Dense uniform labelling was also observed when a probe amplified from a clearly delimited microdissected centromeric region of a mutant of Tradescantia paludosa was hybridized to T. paludosa chromosomes. Even after six cycles of subtractive hybridization between DNA fragments amplified from centromeric and acentric regions no sequences specifically located at the field bean centromeres were found among the remaining DNA. A mouse antiserum was produced which detected nuclear proteins of 33 kDa and 68 kDa; these were predominantly located at V. faba kinetochores during mitotic metaphase. DNA amplified from the chromatin fraction adsorbed by this serum out of the sonicated total mitotic chromatin also did not cause specific labelling of primary constrictions. From these results we conclude: (1) either centromere-specific DNA sequences are not very conserved among higher plants and are — at least in species with large genomes — intermingled with complex dispersed repetitive sequences that prevent the purification of the former, or (2) (some of) the dispersed repeats themselves specify the primary constrictions by stereophysical parameters rather than by their base sequence.     

Repeated DNA sequences found in the large spacer of Vicia faba rDNA

In the large spacer of the rDNA of Vicia faba, multiples of a 0.32 kilobasepair (kb) sequence reiterate to various degrees. We sequenced the repetitious region consisting of the repeating sequences and its flanking regions using two cloned plasmids, which contain V. faba rDNA segments encompassing the whole region of the large spacer. The repetitious region was found to consist of multiple complete copies and one truncated copy of a 325 bp repeat unit and to be flanked by direct repeat sequences of about 150 bp. The set of direct repeats located at either side of the repetitious region differed from each other with about 10% sequence heterogeneity. However, nucleotide sequences of the direct repeats were well conserved between the two clones examined. Southern blot hybridization indicated a widespread distribution within the whole V. faba genome of some related sequences with high homologies to the 325 bp repeat unit and to the direct repeats.     

Cytological localization of fast renaturing and satellite DNA sequences inVicia faba

Summary DNA sequences reassociating within a Cot value of 1.8×10^–1 and those producing a light satellite in a CsCl density gradient were isolated fromVicia faba DNA and hybridizedin situ on squashes of roots of the same species. Silver grains were seen to be scattered over both the interphase nuclei and the metaphase chromosomes after hybridization with fast renaturing DNA sequences, indicating these are fairly regularly interspersed in theV. faba genome. Clustered labeling occurred after hybridization with satellite DNA sequences, indicating these are clustered in the genome. The localization of satellite DNA in chromosomes appeared to correspond closely to the position of the bright bands detectable after staining with quinacrine mustard. After hybridization with both DNA probes, labeling intensity over the nuclei of meristematic cells was higher than that over the nuclei of differentiating and/or differentiated cells. These results are discussed in relation to the structure of the cell nucleus, the mechanism of quinacrine banding and to previous data suggesting underrepresentation of nuclear repeated DNA sequences in differentiatingV. faba root cells.     

Embryo rescue inVicia faba andVicia narbonensis

Embryo rescue in twoVicia faba L. cultivars (‘Polycarpe’ and ‘A-107’) and oneV. narbonensis L. population (A-202) was studied under a 22 ± 2°C/ 16 ± 1° day/night temperature regime. Very young ovules (1.0–1.8 mm long) cultured, in-ovule, on five liquid media remained green for a longer period of time on modified B5, modified Murashige and Skoog and modified Beasley and Ting media than on modified Phillips and Collins and modified Bourgin and Nitsch media. However, no embryo growth or embryo germination was observed. In-ovule culture of older ovules, 6 and 8 days forV. narbonensis and 10 and 14 days forV. faba, on modified B5 liquid medium allowed 6-day-oldV. narbonensis and 14-day-oldV. faba embryos to be rescued. Finally, culture of whole pods of the two species resulted in the rescue of even younger embryos. Thus, plantlets were obtained from as young as 4-day-oldV. narbonensis pods and 11-day-oldV. faba pods.     

Conservation of a highly repeated DNA family of Aedes albopictus among mosquito genomes (Diptera: Culicidae)

Summary The genomic organization and chromosomal localization of a cloned 0.79-kb highly repeated DNA fragment, H-115, isolated from Aedes albopictus has been examined. The cloned fragment is a part of a larger unit of 1.86 kb that is tandemly repeated in the Ae. albopictus genome. The H-115 family of sequences are located at the intercalary position on chromosome 1 in Ae. albopictus. Similar patterns of in situ and Southern blot hybridization results are obtained in Ae. aegypti, Ae. seatoi, Ae. flavopictus, Ae. polynesiensis, Ae. Alcasidi, and Ae. katherinensis. The H-115 sequences are widely conserved in Culicidae and are found in Haemagogus equinus, Tripteroides bambusa, and Anopheles quadrimaculatus by hybridization under high stringency conditions. The H-115 sequences are also tandemly repeated in Hg. equinus with a monomer unit of 1.86 kb and in Tp. bambusa with a slightly diverged monomer unit of 1.90kb. In Anopheles quadrimaculatus, the H-115 sequences are dispersed throughout the genome. Partial sequence analysis shows that the H-115 insert is 62% AT and contains two perfect inverted repeats and numerous perfect direct repeats. The occurrence of inverted repeats with potential to form intrastrand palindromic structure suggests that the H-115 family of sequences may be involved in chromatin condensation.     

Chloroplast DNA diversity in Vicia faba and its close wild relatives: implications for reassessment

To obtain new information on phylogenetic relationships between wild and cultivated broad bean, restriction fragment length polymorphism (RFLP) analysis of chloroplast (cp) DNAs from Vicia faba and eight subspecies/species of its close wild relatives grouped together in the Narbonensis complex was carried out using 14 restriction endonucleases. The molecular sizes of the cpDNAs obtained were similar (122.6–123.4 kbp), indicating that they had all lost one of inverted repeats. Among the more than 300 sites surveyed, the three subspecies within V. narbonensis, which exhibit just as many types of karyotypes, were shown to have identical cp fragment patterns. Genetic distances between all of the pairs of species were calculated from RFLP data. The cpDNA diversity within the Narbonensis complex was found to be more extensive than expected, except for the genetic relationship between V. hyaeniscyamus and V. johannis in which a total of three mutations were detected among the 300 sites sampled, thereby showing their close relatedness. The cpDNA of V. faba vis-a-vis its wild relatives also exhibited startling differences, indicating a clear division of Vicia species into two distinct lineages. This analysis unambiguously provides new evidence that the wild species grouped in the complex did not contribute their plastomes to the evolution of V. faba, and hence none of the species can be considered to be putative allies of broad bean. The present study also demonstrates profound cpDNA diversity among closely related species that have lost one of inverted repeats.     

Evolutionary conservation of the human 7 S RNA sequences

The cloning and characterization of the cytoplasmic 7 S RNAs of HeLa cells has provided pure probes to study the organization of the corresponding genomic DNA sequences. Such analysis has shown that the 7 S L and K RNAs are derived from families of middle repetitive DNA (Ullu & Melli, 1982; Ullu et al., 1982). In this work we analyze the evolutionary conservation of these sequences in the RNA and DNA of distantly related species. Hybridization of the 7 S recombinants to the RNA of rodents, birds, amphibians and echinoderms suggests high conservation of these sequences throughout evolution. Southern blot analysis of genomic DNAs from the same species shows the presence of families of repeated sequences homologous to the 7 S recombinants and Alu DNAs in the genomes of the same species. We were unable to hybridize the 7 S probes to the RNAs of Drosophila melanogaster or Dictyostelium discoideum, although sequence(s) homologous to the 7 S L probe were found in the genome of D. discoideum and to both 7 S L and K probes in the genome of D. melanogaster.     

Genome specific,highly repeated sequences of Hordeum vulgare: cloning,sequencing and squash dot test

Summary Highly repeated sequences of nuclear DNA from barley Hordeum vulgare (L.) variety Erfa were cloned. Several clones containing barley specific repeated DNA were analysed by sequence analysis and Southern blot hybridization. The investigated repeats differ from each other in their length, sequence and redundancy. Their length ranges from 36 bp to about 180 bp. The repeats are AT-rich and differ widely in their redundancy within the barley genome. Southern analysis showed that the repeats belong to different repetition complexes. The possibility for utilizing these clones as probes for simple and fast genome analysis is demonstrated in squash dot experiments.     

Evolutionary force of AT‐rich repeats to trap genomic and episomal DNAs into the rice genome: lessons from endogenous pararetrovirus

In plant genomes, the incorporation of DNA segments is not a common method of artificial gene transfer. Nevertheless, various segments of pararetroviruses have been found in plant genomes in recent decades. The rice genome contains a number of segments of endogenous rice tungro bacilliform virus‐like sequences (ERTBVs), many of which are present between AT dinucleotide repeats (ATrs). Comparison of genomic sequences between two closely related rice subspecies, japonica and indica, allowed us to verify the preferential insertion of ERTBVs into ATrs. In addition to ERTBVs, the comparative analyses showed that ATrs occasionally incorporate repeat sequences including transposable elements, and a wide range of other sequences. Besides the known genomic sequences, the insertion sequences also represented DNAs of unclear origins together with ERTBVs, suggesting that ATrs have integrated episomal DNAs that would have been suspended in the nucleus. Such insertion DNAs might be trapped by ATrs in the genome in a host‐dependent manner. Conversely, other simple mono‐ and dinucleotide sequence repeats (SSR) were less frequently involved in insertion events relative to ATrs. Therefore, ATrs could be regarded as hot spots of double‐strand breaks that induce non‐homologous end joining. The insertions within ATrs occasionally generated new gene‐related sequences or involved structural modifications of existing genes. Likewise, in a comparison between Arabidopsis thaliana and Arabidopsis lyrata, the insertions preferred ATrs to other SSRs. Therefore ATrs in plant genomes could be considered as genomic dumping sites that have trapped various DNA molecules and may have exerted a powerful evolutionary force.     

Isoenzyme variation in the wild relatives ofVicia faba (Fabaceae)

Electrophoretic analysis of five enzyme systems, LAP, PGI, SKDH, SOD and 6-PGDH, among 102Vicia accessions representingV. bithynica and seven species of theV. narbonensis complex, namelyV. eristalioides, V. kalakhensis, V. johannis, V. galilaea, V. serratifolia, V. narbonensis andV. hyaeniscyamus, has been performed. The recorded variation was tentatively assigned to 41 allelic genes at eight loci; intraspecific variation was observed in all species except forV. eristalioides. The results obtained were compared with the corresponding data reported earlier forV. faba. Hierarchical grouping of the investigated taxa, includingV. faba, was based onNei's genetic identities calculated from the allozyme frequency data.Vicia faba andV. bithynica were shown to be most distantly related to one another and to the remaining species investigated.Vicia serratifolia appeared to be a peripheral member of theV. narbonensis complex. The results are discussed with reference to genetic diversity and taxonomic relationships of the species under study.     

Newly evolved highly repeated DNA sequences ofTupaia glis (Tupaiidae,Scandentia)

We have studied highly repeated DNA sequences ofTupaia glis (Tupaiidae, Scandentia) with restriction endonucleases and Southern blotting techniques. Five highly repeated DNA fragments have been isolated fromT. glis and hybridized with genomic DNAs (cleaved by different restriction enzymes) of several non-human primate species and one insectivore (E. europaeus), in order to highlight eventual differences or similarities of their highly repeated DNA sequences. Our first preliminary findings suggest that the newly isolated highly repeated DNA fragments ofT. glis are distinct from both non-human primates and insectivore, the two taxonomic groups considered most similar to the Tupaiidae.