Bryophyte 5S rDNA was inserted into 45S rDNA repeat units after the divergence from higher land plants

The 5S ribosomal RNA genes (5S rDNA) are located independently from the 45S rDNA repeats containing 18S, 5.8S and 26S ribosomal RNA genes in higher eukaryotes. Southern blot and fluorescence in situ hybridization analyses demonstrated that the 5S rDNAs are encoded in the 45S rDNA repeat unit of a liverwort, Marchantia polymorpha, in contrast to higher plants. Sequencing analyses revealed that a single-repeat unit of the M. polymorpha nuclear rDNA, which is 16103 bp in length, contained a 5S rDNA downstream of 18S, 5.8S and 26S rDNA. To our knowledge, this is the first report on co-localization of the 5S and 45S rDNAs in the rDNA repeat of land plants. Furthermore, we detected a 5S rDNA in the rDNA repeat of a moss, Funaria hygrometrica, by a homology search in a database. These findings suggest that there has been structural re-organization of the rDNAs after divergence of the bryophytes from the other plant species in the course of evolution.     

Nucleotide sequence of the 17S–25S spacer region from rice rDNA

Summary The nucleotide sequence of a spacer region between rice 17S and 25S rRNA genes (rDNAs) has been determined. The coding regions for the mature 17S, 5.8S and 25S rRNAs were identified by sequencing terminal regions of these rRNAs. The first internal transcribed spacer (ITS1), between 17S and 5.8S rDNAs, is 194–195 bp long. The second internal transcribed spacer (ITS2), between 5.8S and 25S rDNAs, is 233 bp long. Both spacers are very rich in G+C, 72.7% for ITS1 and 77.3% for ITS2. The 5.8S rDNA is 163–164 bp long and similar in primary and secondary structures to other eukaryotic 5.8S rDNAs. The 5.8S rDNA is capable of interacting with the 5′ terminal region of 25S rDNA.     

Phylogenetic and genomic relationships in Setaria italica and its close relatives based on the molecular diversity and chromosomal organization of 5S and 18S-5.8S-25S rDNA genes

We have analyzed the phylogenetic and genomic relationships in the genus Setaria Beauv. including diploid and tetraploid species, by means of the molecular diversity of the 5S rDNA spacer and chromosomal organization of the 5S and 18S-5.8S-25S rDNA genes. PCR amplification of the 5S rDNA sequences gave specific patterns. All the species studied here share a common band of about 340 bp. An additional band of an approximately 300-bp repeat unit was found for Setaria verticillata and the Chinese accessions of Setaria italica and Setaria viridis. An additional band of 450 bp was found in the sole species Setaria faberii. Fluorescent in situ hybridization was used for physical mapping of the 5S and 18S-5.8S-25S rDNA genes and showed that they are localized at two separate loci with no polymorphism of chromosome location among species. Two chromosome pairs carrying the 5S and 18S-5.8S-25S rDNA clusters can now be unambiguously identified using FISH. Phylogenetic trees based on the variation of the amplified 5S rDNA sequences showed a clear separation into four groups. The clustering was dependent on the genomic composition (genome A versus genome B) and confirmed the closest relationship of S. italica and S. viridis accessions from the same geographical region. Our results confirm previous hypotheses on the domestication centers of S. italica. They also show the wide difference between the A and B genomes, and even clarify the taxonomic position of S. verticillata. Received: 28 August 2000 / Accepted: 27 January 2001     

Nucleotide sequence diversity of the 5S rDNA spacer in the simple blade kelp genera Laminaria, Cymathaere and Kjellmaniella (Laminariales, Phaeophyceae) from northern Japan

Tandem repeats of the 5S ribosomal RNA gene (rDNA) were confirmed for almost all laminarian, cymathaerean and kjellmaniellan species distributed in northern Japan. The nucleotide sequence of the spacer region between tandemly repeated 5S rDNA was investigated for 79 samples from 31 sites. Phylogenetic analysis of the 29 different sequences detected revealed two lineages: (1) Laminaria coriacea group, including Laminaria coriacea Miyabe, Laminaria cichorioides Miyabe, Laminaria sachalinensis (Miyabe) Miyabe, Laminaria yendoana Miyabe, Cymathaere japonica Miyabe et Nagai, Kjellmaniella gyrata (Kjellman) Miyabe and Kjellmaniella crassifolia Miyabe; (2) Laminaria japonica group including Laminaria japonica Areschoug, Laminaria religiosa Miyabe, Laminaria ochotensis Miyabe, Laminaria diabolica Miyabe, Laminaria longipedalis Okamura, Laminaria angustata Kjellman and Laminaria longissima Miyabe. In addition, the latter group was divided into two: subgroup (2a) including L. angustata and L. longissima and subgroup (2b) including L. japonica, L. religiosa, L. ochotensis, L. diabolica and L. longipedalis. Members of the three groups differ from each other in the appearance of ornaments (bullation, gyration and folds) on the surface of the blade. These are absent in group (2a), only present in the early stages of the lifespan of group (2b), and present for the duration of the lifespan in group (1). Genetic distances among samples were extremely small within group (2a). Together with previous crossing studies and data on ocean currents and distribution, these findings suggest that gene flow occurs within group (2b).     

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.     

Physical mapping of rRNA genes by fluorescent in-situ hybridization and structural analysis of 5S rRNA genes and intergenic spacer sequences in sugar beet (Beta vulgaris)

A digoxigenin-labelled 5S rDNA probe (pTa-794) and a rhodamine-labelled 18S-5.8S-25S rDNA probe (pTa71) were used for double-target in-situ hybridization to root-tip metaphase, prophase and interphase chromosomes of cultivated beet,Beta vulgaris L. After in-situ hybridization with the 18S-5.8S-25S rDNA probe, one major pair of sites was detected which corresponded to the secondary constriction at the end of the short arm of chromosome 1. The two rDNA chromosomes were often associated and the loci only contracted in late metaphase. In the majority of the metaphase plates analyzed, we found a single additional minor hybridization site with pTa71. One pair of 5S rRNA gene clusters was localized near the centromere on the short arm of one of the three largest chromosomes which does not carry the 18S-5.8S-25S genes. Because of the difficulties in distinguishing the very similarly-sizedB. vulgaris chromosomes in metaphase preparations, the 5S and the 18S-5.8S-25S rRNA genes can be used as markers for chromosome identification. TwoXbaI fragments (pXV1 and pXV2), comprising the 5S ribosomal RNA gene and the adjacent intergenic spacer, were isolated. The two 5S rDNA repeats were 349 bp and 351 bp long, showing considerable sequence variation in the intergenic spacer. The use of fluorescent in-situ hybridization, complemented by molecular data, for gene mapping and for integrating genetic and physical maps of beet species is discussed.     

Physical mapping of the 5S ribosomal RNA genes in Arabidopsis thaliana by multi-color fluorescence in situ hybridization with cosmid clones

The 5S ribosomal RNA genes were mapped to mitotic chromosomes of Arabidopsis thaliana by fluorescence in situ hybridization (FISH). In the ecotype Landsberg erecta, hybridization signals appeared on three pairs of chromosomes, two of which were metacentric and the other acrocentric. Hybridization signals on one pair of metacentric chromosomes were much stronger than those on the acrocentric and the other pair of metacentric chromosomes, probably reflecting the number of copies of the genes on the chromosomes. Other ecotypes, Columbia and Wassilewskija, had similar chromosomal distribution of the genes, but the hybridization signals on one pair of metacentric chromosomes were very weak, and detectable only in chromosomes prepared from young flower buds. The chromosomes and arms carrying the 5S rDNA were identified by multi-color FISH with cosmid clones and a centromeric 180 bp repeat as co-probes. The metacentric chromosome 5 and its L arm carries the largest cluster of the genes, and the short arm of acrocentric chromosome 4 carries a small cluster in all three ecotypes. Chromosome 3 had another small cluster of 5S rRNA genes on its L arm. Chromosomes 1 and 2 had no 5S rDNA cluster, but they are morphologically distinguishable; chromosome 1 is metacentric and 2 acrocentric. Using the 5S rDNA as a probe, therefore, all chromosomes of A. thaliana could be identified by FISH. Chromosome 1 is large and metacentric; chromosome 2 is acrocentric carrying 18S-5.8S-25S rDNA clusters on its short arm; chromosome 3 is metacentric carrying a small cluster of 5S rDNA genes on its L arm; chromosome 4 is acrocentric carrying both 18S-5.8S-25S and 5S rDNAs on its short (L) arm; and chromosome 5 is metacentric carrying a large cluster of 5S rDNA on its L arm.     

Physical mapping of rDNA sequences in four karyotypes of Ranunculus silerifolius (Ranunculaceae)

The chromosomal locations of the 18S-5.8S-26S rDNA and 5S rDNA sequences were examined in four cytotypes of Ranunculus silerifolius (the Matsuyama, Mugi, Otaru, and Karatsu types) using fluorescence in situ hybridization (FISH). Using the 18S-5.8S-26S rDNA probe, one pair of probe hybridization sites was detected by FISH in the interstitial region corresponding to the secondary constriction on the short arm of a satellite chromosome (chromosome pair 6) in all four karyotypes. FISH using 5S rDNA identified one pair of sites. The 5S rDNA locus was on different chromosomes in the four karyotypes: in the interstitial region of the short arm of the largest metacentric chromosome (chromosome pair 1) in the Matsuyama type, in the interstitial region of the short arm of the subtelocentric chromosome (pair 2) in the Mugi and Otaru types, and in the interstitial region of the short arm of the metacentric chromosome (pair 2) in the Karatsu type. This physical mapping of the 5S rDNA provides valuable information about karyotype evolution in R. silerifolius. Possible mechanisms of chromosome evolution are discussed.     

Restriction site and length polymorphism of the rDNA unit in the cultivated basidiomycetePleurotus cornucopiae

In the ribosomal DNA unit ofPleurotus cornucopiae, the rDNA coding regions are in the order 5, 5S-18S-5.8S-25S, 3, with the 5 location of the 5S gene differing from its 3 location found in other basidiomycetes. The most discriminating probe used to study the rDNA polymorphism consisted of a fragment that included the 5S, 18S and part of the 5.8S and 25S genes flanking three intergenic sequences. A high degree of rDNA polymorphism was observed in the sevenP. cornucopiae dikaryons studied. For the first time within a basidiomycete species, the restrictions maps distinguished two types of rDNA units (I and II). In each rDNA type, length variations in the external intergenic sequence IGS 1 located between the 25S and 5S genes allowed characterization of two different rDNA units in type I and four rDNA units in type II. This suggested that theP. cornucopiae rDNA units were derived from two kinds of ancestors (type I and II) by insertion or deletion events (100–700 bp) in the IGS 1. In four dikaryotic strains, two rDNA units of the same type (I or II) differing only by the IGS 1 length, were found in a similar number of copies, and presented a meiotic segregation in homokaryotic progeny. In one progeny, some homokaryotic strains possessed two different rDNA units: one with a high copy number and another with a lower one, showing that two different rDNA units could coexist in a single nucleus.     

Cytogenetic characterization of the sole Solea senegalensis (Teleostei: Pleuronectiformes: Soleidae): Ag-NOR, (GATA) n , (TTAGGG) n and ribosomal genes by one-color and two-color FISH

A cytogenetic analysis of the sole Solea senegalensis was carried out using silver staining for the nucleolus organizer region (Ag-NOR) identification, one-color FISH for chromosomal mapping of 45S and 5S ribosomal DNAs (rDNAs), (GATA) _n , and (TTAGGG) _n , and two-color FISH for co-localization of both rDNAs. The Ag-NORs and the 45S rDNA were mapped to a medium-sized submetacentric chromosomal pair. Hybridization with the 5S rDNA showed a major signal on the short arm of a medium-sized submetacentric chromosome pair and a minor signal on a centromeric site of a small acrocentric chromosome pair. Differences in the Ag-NOR and 45S and 5S rDNAs FISH signal sizes were observed between homologous chromosomes and among individuals. A two-color FISH co-localized 45S and 5S rDNAs to a medium-sized submetacentric chromosomal pair. The hybridization with the telomeric (TTAGGG) _n repeat displayed small signals at all chromosomal telomeres. Finally, the (GATA) _n probe produced dispersed and small hybridization signals on all chromosome spreads, showing its ubiquitous existence in the genome. These results were compared with those from other Pleuronectiformes and discussed in terms of karyotype evolution.     

Little divergence in ribosomal DNA internal transcribed spacer -1 and -2 sequences among non-digitate species of Laminaria (Phaeophyceae) from Hokkaido, Japan

The nuclear ribosomal DNA internal transcribed spacer (ITS-1 and ITS-2) sequences were determined for 10 of 12 Japanese non-digitate Laminaria species, Kjell-maniella gyrata (Kjellman) Miyabe, Costaria costata (Turner) Saunders, Alaria praelonga Kjellman and Chorda filum (L.) Stackhouse collected at Hokkaido. Phyloge-netic analyses (maximum parsimony and distance matrix) of these sequences, including published data for L. sac-charina (L.) Lamouroux from Canada, showed strong nucleotide conservation among these species of Laminaria, but two phylogenetically distinct species groups were recognized. A L. japonica group encompassing L. yapon/ca Areschoug, L. religiosa Miyabe, L. ochotensis Miyabe, L. diabolica Miyabe, L. longipedalis Okamura, L. angustata Kjellman and L. longissima Miyabe; and a L. saccharina group including L. coriacea Miyabe, L. sac-charina, L. cichorioides Miyabe and L. yendoana Miyabe. As to other laminarialean genera, Kjellmaniella gyrata was most closely related to the genus Laminaria, being related to the second Laminaria species group based on both parsimony and distant tree values.     

Mitochondrial DNA sequence variation of four <Emphasis Type="Italic">Saccharina</Emphasis> species (Laminariales,Phaeophyceae) growing in Japan

The complete mitochondrial DNA (mtDNA) was sequenced for four Saccharina species including three varieties of Saccharina japonica in Hokkaido: S. japonica; S. japonica var. religiosa; S. japonica var. ochotensis; S. japonica var. diabolica; Saccharina longipedalis; Saccharina angustata; and Saccharina coriacea. Furthermore, the structure and the sequence were compared among them. The total nucleotide length was 37,500–37,657 bp. All mtDNAs were mapped and no differences in the organization of the coding region were found. From the total alignment of S. japonica including the three varieties and S. longipedalis, nucleotide substitutions were detected at 68 sites, and a nucleotide insertion/deletion was detected at one site on rps19 for the whole genome. Variable regions useful for varieties distinction of S. japonica were trnI, trnM, rps19, ORF41, and seven spacers. The pairwise distance between S. japonica, S. angustata, and S. coraiacea was 0.000–0.116. Sequencing comparisons of rps7, rps11, rpl5, and tatC were thought to be useful tools for discrimination and phylogenetic analysis of Saccharina species having similar morphologies.     

Physical mapping of rDNA genes establishes the karyotype of almond

The localisation of ribosomal RNA genes on chromosomes of almond (Prunus amygdalus, 2n = 16) was studied by fluorescence in situ hybridisation. Simultaneous double-colour hybridisation with both 18S–5.8S–25S and 5S rDNA probes demonstrated that all chromosomes can be identified. In spite of the small size, differences in length between chromosomes that hybridised with the same rDNA probe as well as between chromosomes without hybridisation signal are apparent. Chromosomes were ordered in the karyotype according to their length. The 18S-5.8S-25S rDNA genes were detected in subdistal positions of chromosomes 2, 3, and 8. Sites located on chromosomes 2 and 3 carry a higher number of repeats than the site of chromosome 8. The 5S rDNA genes were found proximally located on chromosomes 5 and 7, the signal on chromosome 5 showing higher intensity than the signal on chromosome 7. Chromosomes 1, 4, and 6 show no hybridisation signal.     

Ribosomal RNA genes structure in somePopulus spp. (Salicaceae) and their hybrids

The tandemly repeated multigene families encoding 18S and 25S rRNAs were studied at the restriction enzyme level inPopulus alba L.,Populus deltoides Bartr. exMarsh.,Populus trichocarpa Torr. & Gray and in the hybrids between the last two mentioned species. The analysis of single and double digestion with EcoRI, BamHI, XbaI, and SstI endonucleases showed the presence of single repetitive unit types of 12.25 and 11.75kb inP. alba andP. trichocarpa, respectively.P. deltoides showed two rDNA gene types having the same length (12.25Kb) but different nucleotide sequence in the IGS. The rDNAs genes ofP. deltoides andP. triochocarpa are inherited codominantly in their hybrids.     

Molecular organization of 5S rDNA in bitterlings (Cyprinidae)

Molecular organization and nucleotide sequences of the 5S rRNA gene and NTS were investigated in freshwater fish, bitterlings (Acheilognathinae), including 10 species/subspecies of four genera, Acheilognathus, Pseudoperilampus, Rhodeus, and Tanakia, to understand the evolutionary trait of 5S rDNA arrays. Southern hybridization analysis revealed a general trend with tandem repeats of 5S rDNA in all the examined bitterlings. Sequence analysis demonstrated a conserved 120 bp sequence of the 5S rRNA gene and a short NTS of 56–67 bp with two distinct portions, a conserved (5′-flanking portion; at positions −1 to −38) and a variable part (3′-flanking portion), in 6 of 10 species/subspecies examined. The conserved NTS region was most likely an external promoter so far observed in various vertebrates, whereas the variable NTS region could be divided into two types due to its nucleotide polymorphisms. Molecular phylogeny using the 5S rRNA gene and NTS sequences suggested the occurrence of 5S rDNA duplication before speciation and a concerted evolution for the gene and conserved NTS regions, but a birth-and-death process to maintain the variable NTS region. Thus, the 5S rDNA in the examined bitterlings might have evolved under a mixed process of evolution.     

不同染色技术和双色荧光原位杂交技术对宽翅菘蓝 （Isatis violascens Bunge）的细胞遗传学分析

为了解十字花科菘蓝属植物宽翅菘蓝(宽翅菘蓝,Isatis violascens Bunge)的染色体结构,本文利用45SrDNA和5SrDNA双色荧光原位杂交、银染技术和CMA3对宽翅菘蓝进行分子细胞遗传学研究。45SrDNA和5SrDNA荧光原位杂交结果显示宽翅菘蓝染色体上有1对45SrDNA信号和1对5SrDNA信号;银染结果显示其中期染色体有1对银染点;CMA3染色结果发现宽翅菘蓝中期染色体存在1对CMA3信号。     

Genome characterization and relationships between two species of the genusLobelia (Campanulaceae) determined by repeated DNA sequences

Three repeated DNA sequences (rDNA 5S, 18S-5.8S-26S and telomeric repeats) were localised in the genomes ofLobelia brasiliensis andL. imperialis var.kanitzii (subg.Tupa), both with 2n = 28, by fluorescence in situ hybridization (FISH). The results were used to analyse the genomic relationship between the species. With probe pTa71, the karyotypes of these species showed only one NOR site. Probe pTa794, which contains 5S rDNA, demonstrated differences between the species. Telomeric sequences, studied with probe pLT11, were not detected in ectopic sites, but different telomeres showed signals of varying intensity. Based on the results obtained, considerations are made on karyotype evolution inLobelia.     

Isolation and characterization of two different 5S rDNA in Anguilla anguilla and in Anguilla rostrata: possible markers of evolutionary divergence

We cloned and sequenced the HaeIII 350‐bp 5S ribosomal DNA (rDNA) band of Anguilla rostrata and designed specific primers from this sequence. Polymerase chain reaction performed with these primers is able to distinguish DNA samples obtained from European (Anguilla anguilla) and American (Anguilla rostrata) eels. Two amplicons of 1200 bp and 600 bp were obtained, respectively, from A. rostrata and A. anguilla, and the whole 5S rDNA repeated unit from these eels was cloned and sequenced. Southern blot experiments, using four different restriction enzymes and the 5S nontranscribed spacers regions as probe, are able to point out specific diversity in these eels.     

Development of Molecular Cytogenetics and Physical Mapping of Ribosomal RNA Genes in Lupinus

Identification of individual chromosomes in Lupinus is not possible due to gradient in size and similar morphology. To overcome this problem, molecular cytogenetics was developed for Lupinus. As an initial step in karyotype analysis, fluorescent in situ hybridization (FISH) was performed to determine genomic distribution of rRNA genes in L. hispanicus, L. luteus and L. × hispanicoluteus. It was found that all three diploid species posses two chromosome pairs carrying 18S-5.8S-25S rDNA and one chromosome pair carrying 5S rDNA. The use of probes for rDNA permitted unambiguous identification of three different pairs of chromosomes and revealed conservation of the number of rDNA loci among the three species. The study represents the first step in physical mapping of Lupinus genome through FISH by providing distinct chromosome landmarks. This revised version was published online in July 2006 with corrections to the Cover Date.