Analysis of a repetitive DNA family from Arabidopsis arenosa and relationships between Arabidopsis species

We have analysed a family of highly repetitive DNA from Arabidopsis arenosa (L.) Lawalrée [syn. Cardaminopsis arenosa (L.) Hayck] composed of AT-rich tandem repeats of 166–179 bp in head to tail organization. Sequence comparison between several repeat units revealed a high level of divergence of 4.5% to 25%. The sequence family shows more than 58% homology to satellite sequences described in Arabidopsis thallana (L.) Heynh. but no homology to other satellite repeats in the Cruciferae. Within the genus Arabidopsis the satellite sequence was found to be present in A. thaliana and Arabidopsis suecica (Fries) Norrlin, but not in Arabidopsis griffithiana (Boiss.) N. Busch and Arabidopsis pumila (Stephan) N. Busch. In situ hybridization to metaphase chromosomes of A. arenosa (2n=4x=32) showed the sequence to be localized at the centromeres of all 32 chromosomes with substantial hybridization along the chromosome arms. Using Southern hybridization and in situ hybridization, we give evidence that A. suecica is a hybrid of A. thaliana and A. arenosa. A considerable reorganization of the A. thaliana satellite sequence pAL1 occurred in the hybrid genome while no molecular change of the A. arenosa repeat was observed in the hybrid. Analysis of related repeats enabled differentiation between closely related genomes and are useful for the investigation of hybrid genomes.     

Chromosomal Variation in Crocus vernus Hill (Iridaceae) Investigated by in situ Hybridization of rDNA and a Tandemly Repeated Sequence

The physical localization of three tandemly-organized repetitiveDNA sequences was investigated byin situ hybridization to metaphasechromosomes of 11 Crocus vernus accessions. The sequences includedwere the 18S–25S rDNA, the 5S rDNA and a tandemly-repeatedsequence cloned from C. vernus(clone pCvKB8). Ten 2n = 8 karyotypesfrom accessions ranging across the Alps and the Pyrenees couldbe interpreted as variations of a standard karyotype. Polymorphismswere found involving size of the satellite chromosomes, extra5S rDNA sites, and extensive differences in size and numberof pCvKB8 loci. The 2 n = 16 type did not correspond to anypossible tetraploid derived from the 2 n = 8 types. Copyright2000 Annals of Botany Company Evolution, phylogeny, Crocus vernus Hill (Iridaceae), in situ hybridization, chromosomal polymorphism, karyotype evolution, repetitive DNA     

Genomic origin and organization of the allopolyploid Primula egaliksensis investigated by in situ hybridization

Background and Aims: Earlier studies have suggested that the tetraploid Primula egaliksensis(2n = 40) originated from hybridization between the diploidsP. mistassinica (2n = 18) and P. nutans (2n = 22), which werehypothesized to be the maternal and paternal parent, respectively.The present paper is aimed at verifying the hybrid nature ofP. egaliksensis using cytogenetic tools, and to investigatethe extent to which the parental genomes have undergone genomicreorganization. Methods: Genomic in situ hybridization (GISH) and fluorescent in situhybridization (FISH) with ribosomal DNA (rDNA) probes, togetherwith sequencing of the internal transcribed spacer (ITS) regionof the rDNA, were used to identify the origin of P. egaliksensisand to explore its genomic organization, particularly at rDNAloci. Key Results: GISH showed that P. egaliksensis inherited all chromosomes fromP. mistassinica and P. nutans and did not reveal major intergenomicrearrangements between the parental genomes (e.g. interchromosomaltranslocations). However, karyological comparisons and FISHexperiments suggested small-scale rearrangements, particularlyat rDNA sites. Primula egaliksensis lacked the ITS-bearing heterochromaticknobs characteristic of the maternal parent P. mistassinicaand maintained only the rDNA loci of P. nutans. These resultscorroborated sequence data indicating that most ITS sequencesof P. egaliksensis were of the paternal repeat type. Conclusions: The lack of major rearrangements may be a consequence of theconsiderable genetic divergence between the putative parents,while the rapid elimination of the ITS repeats from the maternalprogenitor may be explained by the subterminal location of ITSloci or a potential role of nucleolar dominance in chromosomestabilization. These small-scale rearrangements may be indicativeof genome diploidization, but further investigations are neededto confirm this assumption.     

Molecular Cytogenetic Analysis of Polyploidization in the Anther Tapetum of Diploid and Autotetraploid Arabidopsis thaliana Plants

Like those of most angiosperms, vegetative tissues of Arabidopsisthaliana undergo high levels of endopolyploidization. One suchtissue is the anther tapetum which plays a role in male sporo-and gametogenesis. The degree of polyploidization of the tapetumvaries from species to species. Although the role of this processis not yet fully understood, it may be linked to functioningof the tapetum, increasing the copy number of genes needed forthe synthesis of specific factors required by developing pollenmother cells (PMCs) and pollen grains. The present study focusedon polyploidization during the development of the tapetum ofArabidopsis thaliana. The aim was to outline the mode of tapetumpolyploidization in this model plant species and to establishan efficient method for analysing ploidy levels in differentiatedcells. The course and degree of tapetum polyploidization inArabidopsis was analysed in interphase nuclei using fluorescencein situ hybridization (FISH) with repetitive DNA (45S rDNA).The stages of development of the tapetum were analysed alongsidemeiosis in PMCs. The majority of tapetal cells undergo two,maximally three, rounds of divisions. Tapetal nuclei have usuallydivided by metaphase I of meiosis of PMCs. The pattern of tapetumpolyploidization was similar in diploid and autotetraploid plantsand is thus not affected by increasing amounts of maternal plantDNA. The tapetum of autotetraploid plants exhibits a higherfrequency of additional division than seen in diploid plants.Copyright 2001 Annals of Botany Company Arabidopsis thaliana, autotetraploid, FISH, rDNA polyploidization, tapetum     

Mapping of ribosomal DNA and (TTAGGG)n telomeric sequence by FISH in the bivalve Patinopecten yessoensis (Jay, 1857)

The chromosome set of Patinopecten yessoensis (Jay, 1857) wascharacterized using Giemsa staining, DAPI staining and fluorescencein situ hybridization (FISH) with three repetitive DNA probes[18S–28S rDNA, 5S rDNA and telomeric (TTAGGG)_n]. DAPIstaining showed that AT-rich regions were located on the centromereof almost all chromosomes and interstitial banding was not observed.FISH showed that 18S–28S rDNA spread over the short armsof two subtelocentric chromosome pairs and 5S rDNA was locatedon the long arm of one subtelocentric chromosome pair. SequentialFISH demonstrated that 18S–28S and 5S rDNA were locatedon different chromosomes. FISH also showed that the vertebratetelomeric sequence (TTAGGG)_n was located on both ends of eachchromosome and no interstitial signals were detected. Sequential18S–28S rDNA and (TTAGGG)_n FISH indicated that repeatedunits of the two multicopy families were closely associatedon the same chromosome pair. (Received 4 January 2007; accepted 1 September 2007)     

The Hybrid Origin of Two Cultivars of Crocus (Iridaceae) Analysed by Molecular Cytogenetics including Genomic Southern and in situ Hybridization

The origin of the two common cultivars of Crocus, C. 'Stellaris'(2n = 2x = 10) and C. 'Golden Yellow' (2n = 3x = 14) was investigatedby fluorescent in situ hybridization using both total genomicDNA and cloned DNA sequences as probes. The clear differentiationbetween the chromosomes after genomic in situ hybridizationsupports the proposals of a hybrid origin of the cultivars andshows that they have the same parental genomes originating fromC. flavus (2n = 8) and C. angustifolius (2n = 12). C. 'Stellaris'has four chromosomes of C. flavus origin and six chromosomesof C. angustifolius origin. C. 'Golden Yellow' has eight chromosomesof C. flavus origin and six chromosomes of C. angustifoliusorigin. The number and location of 18S-5·8S-26S rRNAgenes on the chromosomes of the hybrids and of the parentalspecies agree with the results from the genomic probings. Hybridizationto Southern membranes also supports the hybrid origin of C.'Golden Yellow'.Copyright 1995, 1999 Academic Press Taxonomy, cytology, rDNA sites, in situ hybridization, Southern hybridization, Crocus     

Molecular Cytogenetics of an Amphiploid Trigeneric Hybrid between Triticum durum, Thinopyrum distichum and Lophopyrum elongatum

In situ hybridization of total genomic DNA was used to analyselines derived from an amphiploid between tetraploid wheat,Triticumdurum Desf. (2n =4x =28), and the wheatgrassesThinopyrum distichum(Thunb.) A. Löve (2n =4x =28) andLophopyrum elongatum (Host)A. Löve (2n =2x =14). A range of chromosome numbers wasdetected, arising from loss or gain of chromosomes. Total genomicDNA probes fromThinopyrum species,L. elongatum andTriticum monococcumL. were able to discriminate chromosomes from the A and B genomesof tetraploid wheat and those of wheatgrass-origin. The methoddid not discriminate the two wheatgrass genomes, J and E, indicatingtheir close similarity. Chromosomal aberrations—includingtelocentric and ring chromosomes—were frequent. Distalinter-genomic translocations of parts of A and B genome chromosomearms, unusual in wheat itself, were more frequent than translocationsbetweenT. durum and wheatgrass.In situ hybridization of an rDNAprobe most frequently revealed four sites associated with secondaryconstrictions onT. durum chromosomes and four onTh. distichumorL. elongatum chromosomes, although there was variation inthe number of loci between and within plants. Within interphaseand prophase nuclei, the three genomes were not intermixed andoften lay in distinct sectors. Wheat; hybrids; Triticum ; Triticeae; evolution; introgression; nuclear architecture; rDNA; in situ hybridization     

rDNA Sites in Mitotic and Polytene Chromosomes of Vigna unguiculata (L.) Walp. and Phaseolus coccineus L. Revealed by in situ Hybridization

Root tip mitotic and tapetal polytene cells ofVigna unguiculataandPhaseolus coccineus were hybridized with a ribosomal DNA(rDNA) probe. While the number of rDNA sites were as expectedforP. coccineus, it was surprisingly higher inV. unguiculatawhere ten rDNA sites were found in both tissues. A sequentialbanding technique on mitotic chromosomes ofV. unguiculata wasused to map the positions of the rDNA sites more accurately.In mitotic cells eight of the rDNA hybridization sites weresimilar in size while the remaining sites were smaller. In contrast,the hybridization sites were more variable in size in polytenecells with no more than six sites being relatively large. Thedifferences in size of the hybridization sites between the twotissues suggest differential amplification of the rDNA sequences.InP. coccineus six hybridization sites were found in both tissuetypes. The relative sizes of the sites were similar in bothtissue. The presence of speckled signal surrounding four ofthe six sites suggested that at least four of the rDNA siteswere transcribed. rDNA; in situ ; Vigna ; Phaseolus ; polytene; tapetal; Leguminosae     

Chromosomal location and reorganization of the 45S and 5S rDNA in theBrachyscome lineariloba complex (Asteraceae)

The chromosomal locations of the 45S (18S-5.8S-26S) and 5S ribosomal DNA in theBrachyscome lineariloba complex and two related species have been determined by the use of multicolor fluorescencein situ hybridization (McFISH). TheBrachyscome lineariloba complex includes five cytodemes with 2n=4, 8, 10, 12 and 16. Each of the 5S and 45S rDNA loci occurs at two sites on chromosomes in cytodemes with 2n=4. While in cytodemes with 2n=8, 10, 12 and 16, the number of 5S rDNA sites increases from four to eight paralleled to the genomic addition of diploid (4 chromosomes) or haploid (2 chromosomes) dosage. Of the 5S rDNA sites, only one pair is major, except for the cytodeme with 2n=10. The remaining 5S rDNA sites are minor and seem to have reduced the unit number of the 5S rDNA during the successive genomic additions. The 45S rDNA site is detected only at two nucleolar organizing regions in all cytodemes regardless of successive genomic addition. The loss or diminution of 45S rDNA sequences seem to have proceeded more rapidly than 5S rDNA sequences in theB. lineariloba complex.     

The Close Relationship Between the A and B Genomes in Avena L. (Poaceae) Determined by Molecular Cytogenetic Analysis of Total Genomic, Tandemly and Dispersed Repetitive DNA Sequences

The genusAvena L. (Poaceae) consists of diploid, tetraploid,and hexaploid species, with the B genome known only in tetraploidspecies and the D genome in the hexaploid species. DNA:DNAinsitu hybridization, using total genomic DNA from diploidAvenastrigosa Schreb. (A_sgenome) as a probe, labelled all 28 chromosomesof the AB tetraploidAvena vaviloviana (Malz.) Mordv. stronglyand uniformly, revealing the close relationship between thesetwo genomes. Comparison of patterns of size-separated DNA restrictionfragments between the diploidA. strigosa and the tetraploidA.vaviloviana , using 32 different restriction enzymes, revealedno differences. Southern hybridization using total AB genomicDNA as a probe also gave no differences in banding patternsbetween the two genomes, even when a large excess of A genomicDNA was used as a block. From anA. vaviloviana genomic library,1800 colonies were blotted and probed sequentially with A andAB genomic DNA, but no colony was identified to be B genomespecific. DNA digests of AB genome tetraploids with restrictionenzymeHae III gave a strong band at 4.2 kb. Clone pAbKB3, derivedfrom the 4.2 kb band, was found to be part of aTy1-copia -likeretrotransposon present in A and B genome chromosomes. ClonedrRNA genes were used forin situ hybridization and showed thatdiploidA. strigosa has four major sites for 18S-25S rDNA andtwo pairs of sites for 5S rDNA (pairs on the same satellitedchromosome, on different chromosome arms), while 4xA. vavilovianahas eight major sites for 18S-25S rDNA and four pairs of sitesfor 5S rDNA (pairs on the same satellited chromosome, on differentchromosome arms). A repetitive sequence from rye pSc119.2, showeddispersed hybridization, while the telomeric sequence in clonepLT11 hybridized to telomeres. Again no discrimination was possiblebetween A and B genome chromosomes. The molecular similaritiesbetween the diploidA. strigosa and thebarbata group tetraploidsclearly indicate that thebarbata group of tetraploids arosefrom A_sdiploids through autotetraploidization. Avena ; evolution; repetitive sequences; in situ hybridization; retrotransposons; genome organization     

Polymorphic Chromosomal Specificity of Centromere Satellite Families in Arabidopsis halleri ssp. gemmifera

The chromosomal localizations of repetitive DNA clusters (ribosomal DNA and centromere satellites) were analyzed by fluorescent in situ hybridization in five strains of Arabidopsis halleri ssp. gemmifera. All five A. gemmifera strains have three chromosome pairs with 45S (5.8S-16S-26S) rDNA loci, and one pair with both 5S and 45S rDNA loci. These localizations are different from that of A. thaliana. Very unusually, there are three families of centromeric satellite DNAs (pAa, pAge1, and pAge2), and they showed polymorphism among the five strains studied. Overall, we found four different centromere satellite compositions. A plant from Fumuro was heterozygous for the chromosome specificities of centromere satellite families, possibly due to a reciprocal translocation involving centromere regions. Changes of centromeric satellite repeats appear to be rapid and frequent events in the history of A. gemmifera, and seem to occur by exchanging clusters as units.     

Investigations of Genome Relationships Between Leymus, Psathyrostachys and Hordeum Inferred by Genomic DNA:DNA in situ Hybridization

Genome relationships between the genera Leymus Hochst., PsathyrostachysNevski and Hordeum L. (Poaceae, Triticeae) were investigatedby fluorescent in situ hybridization using both total genomicDNA and cloned DNA sequences as probes. In hybrids between speciesof Hordeum and Leymus there was a clear differentiation betweenthe H genomes of Hordeum species and the genomes of Leymus speciesafter probing with genomic Hordeum or Leymus DNA. Chromosomesof species of Leymus and Psathyrostachys were also differentiatedby subtelomeric heterochromatic segments or by negative bandsalong their length. The number and location of 18S-5·8S-26SrRNA genes varied between the investigated genera. Unusually,L. angustus and P. stoloniformis rDNA sites were localized onboth ends of some chromosomes. Interphase nuclei of the Hordeumx Leymus hybrids had groups of chromosomes from both parentalgenomes in discrete, non-intermixed domains.Copyright 1994,1999 Academic Press Taxonomy, evolution, molecular evolution, repetitive DNA, rDNA sites, in situ hybridization, Triticeae, Leymus, Hordeum, Psathyrostachys     

Identification of clones carrying minisatellite-like loci in an Arabidopsis thaliana YAC library

Minisatellite-like DNA elements occur in the Arabidopsis thalianagenome in low copy and are weakly polymorphic between ecotypes.YAC clones from the EG-Arabidopsis library were identified withhomology to minisatellite 33.15 and bacteriophage M13 repeatelements. Other highly repeated A. thaliana DNA elements tendnot to be found in YAC clones carrying the minisatellite elementssuggesting that the elements are dispersed in the Arabidopsisgenome in regions of low complexity. The minisatellite elementsare represented at low copy in the EG-YAC library reflectingtheir frequency in the Arabidopsis genome. Key words: Minisatellite elements, Arabidopsis thaliana, YAC library screening     

Repetitive DNA, Genome and Species Relationships in Avena and Arrhenatherum(Poaceae)

Repetitive sequences have been widely used for examining genomeand species relationships by in situ and Southern hybridization.In the present study, double-stranded DNA sequences, from denaturedDNA reannealed to Cot = 1, from Avena strigosa(2 n = 2x = 14;A genome; referred to as CotA) and Avena sativa(2n = 6 x =42; ACD genome; referred to as CotACD) were isolated with ahydroxyapatite column, and were used for in situ hybridizationon hexaploid A. sativa chromosomes. Probe CotACD labelled allchromosomes evenly throughout their length at the same intensity.Probe CotA labelled the 28 A and D genome chromosomes stronglyand the 14 C genome chromosomes weakly. Three cloned repetitivesequences, pAvKB9 (126 bp), pAvKB26 (223 bp) and pAvKB32 (721bp) were characterized in the A, B, C and D Avena genomes andthe genus Arrhenatherum using molecular and cytological methods.Clones pAvKB9 and pAvKB26 were absent from the Avena C genome,while both could identify the presence of the D genome by Southernhybridization. In situ hybridization to diploid and tetraploidAvena species revealed that the probes showed a dispersed genomicorganization and that they are present on both arms of all chromosomes.These sequences were excluded from areas where tandem repeats,such as rRNA genes and telomeres, are present. These resultsindicate the close relationship between A and D genomes andthe presence of common DNA sequences between A and C Avena genomes.All three clones hybridized to Southern blots containingArrhenatherumdigested genomic DNA, indicating Arrhenatherum’s closeaffinity to A, B and D Avena genomes. Copyright 2000 Annalsof Botany Company Cereals, DNA, hydroxyapatite, in situ hybridization, oats, reassociation kinetics, repetitive DNA     

Chromosome investigations in annual Medicago species (Fabaceae) with emphasis on the origin of the polyploid Medicago rugosa and M. scutellata

Chromosome number variations play an important role in the genus Medicago. In addition to polyploidy there are cases of dysploidy as evidenced by two basic numbers, x = 8 and x = 7, the latter limited to five annual species having 2n = 14. Annuals are diploid with the exception of Medicago scutellata and Medicago rugosa which have 2n = 30 and are considered the result of crosses between the 2n = 16 and 2n = 14 species. However, this hypothesis has never been tested. This study was carried out to investigate the 2n = 14 and 2n = 30 karyotypes and verify the allopolyploid origin of M. scutellata and M. rugosa. Fluorescence in situ hybridization (FISH) of rDNA probes and genomic in situ hybridization (GISH) were performed. FISH showed that all five diploids with 2n = 14 have one pair of 45S and one pair of 5S rDNA sites. M. scutellata displayed four sites of 45S and four sites of 5S rDNA, while in M. rugosa only one pair of each of these sites was found. GISH did not produce signals useful to identify the presumed progenitors with 14 chromosomes. This result suggests alternative evolutionary pathways, such as the formation of tetraploids (2n = 32) and subsequent dysploidy events leading to the chromosome number reduction.     

Constitutive heterochromatin, 5S and 18S rDNA genes in Apareiodon sp. (Characiformes, Parodontidae) with a ZZ/ZW sex chromosome system

Karyotype, sex chromosome system and cytogenetics characteristics of an unidentified species of the genus Apareiodon originating from Piquiri River (Paraná State, Brazil) were investigated using differential staining techniques (C-banding and Ag-staining) and fluorescent in situ hybridization (FISH) with 5S and 18S rDNA probes. The diploid chromosome number was 2n = 54 with 25 pairs of meta- (m) to submetacentric (sm) and 2 pairs of subtelocentric (st) chromosomes. The major ribosomal rDNA sites as revealed by Ag-staining and FISH with 18S rDNA probe were found in distal region of longer arm of st chromosome pair 26, while minor 5S sites were observed in the interstitial sites on chromosome pairs 2 (smaller cluster) and 7 (larger one). The C-positive heterochromatin had pericentromeric and telomeric distribution. The heteromorphic sex chromosome system consisted of male ZZ (pair 21) and female middle-sized m/st Z/W chromosomes. The pericentric inversion of heterochromatinized short arm of ancestral Z followed by multiplication of heterochromatin segments is hypothesized for origin of W chromosome. The observed karyotype and chromosomal markers corresponded to those found in other species of the genus.     

Molecular Cytogenetics ofMusaSpecies, Cultivars and Hybrids: Location of 18S-5.8S-25S and 5S rDNA and Telomere-like Sequences

The physical sites of 18S-5.8S-25S and 5S rRNA genes and telomericsequences in theMusaL. genome were localized by fluorescentinsituhybridization on mitotic chromosomes of selected lines.A single major intercalary site of the 18S-5.8S-25S rDNA wasobserved on the short arm of the nucleolar organizing chromosomein each genome. AA and BB genome diploids had a single pairof sites, triploids had three sites while a tetraploid hybridhad four sites. The probe is useful for quick determinationof ploidy, even using interphase nuclei from slowly growingtissue culture material. Variation in the intensity of signalswas observed among heterogeneousMusalines indicating variationin the number of copies of the 18S-5.8S-25S rRNA genes. Eightsubterminal sites of 5S rDNA were observed in Calcutta 4 (AA)while Butohan 2 (BB) had six sites; some were weaker in bothgenotypes. Triploid lines showed six to nine major sites of5S rDNA of widely varying intensity and near the limit of detection.The diploid hybrids had five to nine sites of 5S rDNA whilethe tetraploid hybrid had 11 sites. The telomeric sequence wasdetected as pairs of dots at the ends of all the chromosomesanalysed but no intercalary sequences were seen. The molecularcytogenetic studies ofMusausing repetitive and single copy DNAprobes should yield insight into the genome and its evolutionand provide data forMusabreeders, as well as generating geneticmarkers inMusa.Copyright 1998 Annals of Botany Company Genome evolution, nucleolar organizing regions, telomeres,in situhybridization, genetic markers, banana, plantain.     

Chromosome analysis and FISH mapping of ribosomal DNA (rDNA), telomeric (TTAGGG)n and (GATA)n repeats in the leech Haemopis sanguisuga (L.) (Annelida: Hirudinea)

In the present paper the chromosome complement (n = 13; 2n = 26) of the common leech Haemopis sanguisuga (L.) (Annelida: Hirudinea: Hirudinidae) was analyzed using banding techniques and fluorescent in situ hybridization (FISH) with three repetitive DNA probes [ribosomal DNA (rDNA), (TTAGGG) _n and (GATA) _n ]. FISH with the rDNA probe consistently mapped major ribosomal clusters (18S–28S rDNA) in the pericentromeric region of one large metacentric chromosome pair; this region, which consisted of heterochromatin rich in GC base pairs, was preferentially stained by silver nitrate (Ag-NOR). The (TTAGGG) _n telomeric probe was hybridized with the termini of nearly all chromosomes, whereas the (GATA) _n probe did not label any chromosome areas.     

Chromosome Localization of 5S and 45S Ribosomal DNA in the Genomes of Linum L. Species of the Section Linum (Syn. Protolinum and Adenolinum)

Fluorescence in situ hybridization (FISH) was for the first time used to study the chromosomal location of the 45S (18S–5.8S–26S) and 5S ribosomal genes in the genomes of five flax species of the section Linum (syn. Protolinum and Adenolinum). In L. usitatissimum L. (2n = 30), L. angustifolium Huds. (2n = 30), and L. bienne Mill. (2n = 30), a major hybridization site of 45S rDNA was observed in the pericentric region of a large metacentric chromosome. A polymorphic minor locus of 45S rDNA was found on one of the small chromosomes. Sites of 5S rDNA were colocalized with those of 45S rDNA, but direct correlation between signal intensities from the 45S and 5S rDNA sites was observed only in some cases. Other 5S rDNA sites mapped to two chromosomes in these flax species. In L. grandiflorum Desf. (2n = 16) and L. austriacum L. (2n = 18), large regions of 45S and 5S rDNA were similarly located on a pair of homologous satellite-bearing chromosomes. An additional large polymorphic site of 45S and 5S rDNA was found in the proximal region of one arm of a small chromosome in the L. usitatissimum, L. angustifolium, and L. bienne karyotypes. The other arm of this chromosome contained a large 5S rDNA cluster. A similar location of the ribosomal genes in the pericentric region of the pair of satellite-bearing metacentrics confirmed the close relationships of the species examined. The difference in chromosomal location of the ribosomal genes between flax species with 2n = 30 and those with 2n = 16 or 18 testified to their assignment to different sections. The use of ribosomal genes as chromosome markers was assumed to be of importance for comparative genomic studies in cultivated flax, a valuable crop species of Russia, and in its wild relatives.