Organization of nuclear ribosomal DNA and species-specific polymorphism in closely related Fraxinus excelsior and F. oxyphylla

The ribosomal DNA repeat units of two closely related species of the genus Fraxinus, F. excelsior and F. oxyphylla, were characterized. The physical maps were constructed from DNA digested with BamHI, EcoRI, EcoRV and SacI, and hybridized with three heterologous probes. The presence or the absence of an EcoRV restriction site in the 18s RNA gene characterizes two ribosomal DNA unit types found in both species and which coexist in all individuals. A third unit type appeared unique to all individuals of F. oxyphylla. It carries an EcoRI site in the intergenic spacer. Each type of unit displayed length variations. The rDNA unit length of F. excelsior and F. oxyphylla was determined with EcoRV restriction. It varied between 11kb and 14.5kb in F. excelsior and between 11.8kb to 13.8kb in F. oxyphylla. Using SacI restriction, at least ten spacer length variants were observed in F. excelsior, for which a detailed analysis was conducted. Each individual carries 2–4 length variants which vary by a 0.3-kb step multiple. This length variation was assigned to the intergenic spacer. By using the entire rDNA unit of flax as probe in combination with EcoRI restriction, each species can be unambiguously discriminated. The species-specific banding pattern was used to compare trees from a zone of sympatry between the two species. In some cases, a conflicting classification was obtained from morphological analysis and the use of the species-specific rDNA polymorphism. Implications for the genetic management of both species are discussed.     

Sequence comparison of distal and proximal ribosomal DNA arrays in rice (Oryza sativa L.) chromosome 9S and analysis of their flanking regions

Rice (Oryza sativa ssp. japonica cv. Nipponbare) harbors a ribosomal RNA gene (rDNA) cluster in the nucleolar-organizing region at the telomeric end of the short arm of chromosome 9. We isolated and sequenced two genomic clones carrying rice rDNA fragments from this region. The rice rDNA repeat units could be classified into three types based on length, which ranged from 7,928 to 8,934 bp. This variation was due to polymorphism in the number of 254-bp subrepeats in the intergenic spacer (IGS). Polymerase chain reaction (PCR) analysis suggested that the rDNA units in rice vary widely in length and that the copy number of the subrepeats in the IGS ranges from 1 to 12 in the rice genome. PCR and Southern blot analyses showed that most rDNA units have three intact and one truncated copies of the subrepeats in the IGS, and distal (telomere-side) rDNA units have more subrepeats than do proximal (centromere-side) ones. Both genomic clones we studied contained rDNA-flanking DNA sequences of either telomeric repeats (5′-TTTAGGG-3′) or a chromosome-specific region, suggesting that they were derived from the distal or proximal end, respectively, of the rDNA cluster. A similarity search indicated that retrotransposons appeared more frequently in a 500-kb portion of the proximal rDNA-flanking region than in other subtelomeric regions or sequenced regions of the genome. This study reveals the repetitive nature of the telomeric end of the short arm of chromosome 9, which consists of telomeric repeats, an rDNA array, and a retrotransposon-rich chromosomal region.Sequence accession numbers in DDBJ assigned for OSJNOa063K24 and OSJNBb0013K10 are AP009051 and AP008245, respectively.     

Molecular–cytogenetic studies of ribosomal RNA genes and heterochromatin in three European Fraxinus species

Three European representatives of the genus Fraxinus were studied for the first time for their rDNA and heterochromatin patterns. The physical mapping of two rRNA gene families 5S and 18S–5.8S–26S (45S) and the distributional pattern of GC-rich regions in the chromosomes have been established by means of fluorescence in situ hybridization (FISH) and fluorochrome banding with chromomycin A₃. The genome size was assessed by flow cytometry. Heterochromatin and rDNA organization was conserved and almost identical for two species from Fraxinus section (F. angustifolia and F. excelsior). The number and position of rDNA loci in F. ornus (section Ornus) were similar; however, the organization of genes was quite different. In this species the 5S and 45S rRNA genes were colocalized at the level of satellites of two chromosome pairs bearing nucleolar organizing regions (NORs). One 5S locus was also observed under the 45S one of one chromosome pair. In F. angustifolia and F. excelsior, only 45S loci were situated at the level of satellites and secondary constrictions, while 5S was located just under 45S in the distal part of the short arm of one out of two marked pairs. The number and position of GC-rich DNA correspond to those of 45S loci. The genome size (2C value) was of 1.54 and 1.68 pg for F. angustifolia and F. excelsior, respectively. Fraxinus ornus possessed the highest 2C DNA value (1.98 pg). In the light of these cytogenetic features the clear differentiation between two sections (Fraxinus and Ornus) was observed both at the rDNA and genome size levels.     

Structure and variation in ribosomal RNA genes of pea

Summary A complete ribosomal DNA (rDNA) repeat unit has been cloned from the genome of Pisum sativum (garden pea) and used to construct a map containing a total of 58 cleavage sites for 23 different restriction enzymes. Regions encoding 18s and 25s ribosomal RNA (rRNA) were identified by R-loop analysis. A 180 bp sequence element is repeated eight times in the intergenic nontranscribed spacer (NTS) region, as defined by eight evenly spaced RsaI cleavage sites. Sequence heterogeneity among these elements (subrepeats) is indicated by the presence of an NcoI site within the five RsaI subrepeats distal to the 25s rRNA gene but not in the three subrepeats proximal to this gene, and also by the presence of an additional RsaI cleavage site in one subrepeat.The approximately 4000 copies of the rDNA repeat in the pea nuclear genome show considerable heterogeneity with respect to the length of the NTS region, and differences are also frequently observed between different genotypes. In both cases the length variation appears to be due primarily to differences in the number of subrepeat elements.Comparison of rDNA restriction maps for two pea genotypes separated for hundreds or perhaps thousands of generations reveals that they contain many rDNA identical repeat units. This data is consistent with the view that new rDNA variants are fixed only infrequently in the evolution of a species.Differences also exist between the rDNA repeats of a single genotype with respect to the degree of base modification at certain restriction sites. A large number of sites known to exist in the pea rDNA clone are not cleaved at all in genomic rDNA, or are cleaved in only some copies of the rDNA repeat. We believe these examples of incomplete cleavage results mostly from methylation, although it is difficult to rule out the possibility of sequence variation in all cases. Most putative modifications are best interpreted in terms of cytosine methylation in CG and CXG sequences, but at least one example is more consistent with adenine methylation.We also have constructed a more detailed restriction map of the wheat rDNA clone pTA71 and present a comparison of this map to our map of pea, pumpkin, and wheat in order to assess the amount of useful evolutionary information that can be obtained by comparison of such maps.     

Ribosomal DNA Intergenic Spacer of the Swimming Crab, Charybdis japonica

We have determined the full sequence of the ribosomal DNA intergenic spacer (IGS) of the swimming crab, Charybdis japonica, by long PCR for the first time in crustacean decapods. The IGS is 5376 bp long and contains two nonrepetitive regions separated by one long repetitive region, which is composed mainly of four subrepeats (subrepeats I, II, III, and IV). Subrepeat I contains nine copies of a 60-bp repeat unit, in which two similar repeat types (60 bp-a and 60 bp-b) occur alternatively. Subrepeat II consists of nine successive repeat units with a consensus sequence length of 142 bp. Subrepeat III consists of seven copies of another 60-bp repeat unit (60 bp-c) whose sequence is complementary to that of subrepeat I. Immediately downstream of subrepeat III is subrepeat IV, consisting of three copies of a 391-bp repeat unit. Based on comparative analysis among the subrepeats and repeat units, a possible evolutionary process responsible for the formation of the repetitive region is inferred, which involves the duplication of a 60-bp subrepeat unit (60 bp-c) as a prototype. Received: 13 April 1999 / Accepted: 2 August 1999     

Genomic organization of ribosomal DNA and related sequences inTriturus

The ribosomal RNA genes ofTriturus vulgaris meridionalis are clustered at variable and often multiple chromosomal loci. The rDNA repeats exhibit only a limited and discrete length heterogeneity which is accounted for by the non-transcribed spacer (NTS). Interestingly, sequences homologous to the NTS are clustered outside the ribosomal loci. Clones containing such non ribosomal sequences have been isolated from a genomic library ofT. v. meridionalis and analyzed by restriction mapping. These sequences appear to consist mostly of repetitive Bam HI fragments ranging from 500 bp to 1000 bp. The Bam HI fragments are internally repetitious and highly homologous to each other.     

Sequence subfamilies of satellite repeats related to rDNA intergenic spacer are differentially amplified on<Emphasis Type="Italic"> Vicia sativa</Emphasis> chromosomes

We cloned and sequenced the Vicia sativa 25S-18S rDNA intergenic spacer (IGS) and the satellite repeat S12, thought to be related to the spacer sequence. The spacer was shown to contain three types of subrepeats (A, B, and C) with monomers of 173 bp (A), 10 bp (B), and 66 bp (C), separated by unique or partially duplicated sequences. Two spacer variants were detected in V. sativa that differed in length (2990 and 3168 bp) owing to an extra copy of the subrepeat A. The A subrepeats were also shown to be highly homologous to the satellite repeat S12, which is located in large clusters on chromosomes 4, 5, and 6, and is not associated with the rDNA loci. Sequencing of additional S12 clones retrieved from a shotgun genomic library allowed definition of three subfamilies of this repeat based on minor differences in their nucleotide sequences. Two of these subfamilies could be discriminated from the rest of the S12 sequences as well as from the IGS A subrepeats using specific oligonucleotide primers that labeled only a subset of the S12 loci when used in the primed in situ DNA labeling (PRINS) reaction on mitotic chromosomes. These experiments showed that, in spite of the high overall similarity of the IGS A subrepeats and the S12 satellite repeats, there are S12 subfamilies that are divergent from the common consensus and are present at only some of the chromosomes containing the S12 loci. Thus, the subfamilies may have evolved at these loci following the spreading of the A subrepeats from the IGS to genomic regions outside the rDNA clusters.Electronic Supplementary Material Supplementary material is available in the online version of this article at Accession numbers: GenBank AY234364–AY234374. The monomer sequences and additional information about the family of IGS-like repeat S12 will also appear in the PlantSat database (Macas et al. 2002, ) under Accession name Vicia_sativa_IGS-like     

Unique repetitive sequences of 170 bp inChlorella

Summary Cot analysis ofChlorella DNA revealed that the genome of the unicellular green alga contained a small amount of repetitive sequences (at most 15% of the total DNA). Short repetitive sequences (SRS) of 170 bp produced by enzymatic digestion of algal DNA with eitherHaeIII,HinfI, orPstI, were found by polyacrylamide gel electrophoresis, and their copy number was estimated to be a few hundred (about 2% of the total repetitive sequences). All three members showed high sequence homology and could be be unified into one family, HaeIII family. The family was divided further into two subfamilies,HinfI- (HaeIII-andHinfI-SRS) andPstI-(PstI-SRS) subfamilies, based on small sequence differences among the members. TheHaeIII family had characteristic structural features, including a considerable number of small unique sequence units (purine-CC) and both direct and inverted repeats, and were organized in tandem arrays in the genome.     

Methylation status of Sillago japonica satellite DNA examined by bisulfite modification

A member of Sillago japonica satellite DNA contained internal subrepeats in its 174 bp unit. S. Japonica genomic DNA isolated from liver tissue was subjected to bisulfite modification, and the DNA sequences of about 40 bp flanked by both subrepeats were amplified by polymerase chain reaction (PCR). This protocol, combination of bisulfite reaction and PCR, converts cytosines in the genomic DNA to thymines in the amplified DNA, whereas 5-methylcytosines in the genomic DNA remain as cytosines. Sequence analysis of the amplified DNA fragments revealed that most of the cytosine residues at CpG were methylated in this region.     

Expression plasmid vectors containing Escherichia coli tryptophan promoter transcriptional units lacking the attenuator

Two DNA fragments which contain the Escherichia coli tryptophan promoter-operator region but lack the attenuator have been used in the construction of a series of pAT153 based plasmids suitable for the regulated expression of foreign genes in E. coli. The first, a 139-bp HhaI fragment includes 59 bp of the trp leader sequence, ending within the “attenuator peptide” coding sequence, eleven codons from the N-terminus. A fusion-type expression plasmid incorporating this fragment has been constructed. The second, a 99-bp HaeIII-TaqI fragment contains no coding sequence but includes the “attenuator peptide” SD site situated 4 bp upstream of the TaqI site. This fragment has been incorporated in expression vectors which result in the direct expression of cloned gene sequences. To further maximise expression, plasmids with directly repeating trp promoter HaeIII-TaqI units have been constructed.     

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.     

Complex structure of the ribosomal DNA spacer of Cucumis sativus (cucumber)

Summary The nuclear 18 S, 5.8 S and 25 S ribosomal RNA genes (rDNA) of Cucumis sativus (cucumber) occur in at least four different repeat types of 10.2, 10.5, 11.5, and 12.5 kb in length. The intergenic spacer of these repeats has been cloned and characterized with respect to sequence organization. The spacer structure is very unusual compared to those of other eukaryotes. Duplicated regions of 197 bp and 311 bp containing part of the 3 end of the 25 S rRNA coding region and approximately 470 bp of 25 S rRNA flanking sequences occur in the intergenic spacer. The data from sequence analysis suggest that these duplications originate from recombination events in which DNA sequences of the original rDNA spacer were paired with sequences of the 25 S rRNA coding region. The duplicated 3ends of the 25 S rRNA are separated from each other mostly by a tandemly repeated 30 bp element showing a high GC-content of 87.5%. In addition, another tandemly repeated sequence of 90 bp was found downstream of the 3flanking sequences of the 25 S rRNA coding region. These results suggest that rRNA coding sequences can be involved in the generation of rDNA spacer sequences by unequal crossing over.     

PCR-RFLP of the ribosomal DNA internal transcribed spacers (ITS) provides markers for the A and B genomes in<Emphasis Type="Italic"> Musa</Emphasis> L.

Musa acuminata Colla (AA genomes) and Musa balbisiana Colla (BB genomes) are the diploid ancestors of modern bananas that are mostly diploid or triploid cultivars with various combinations of the A and B genomes, including AA, AAA, BB, AAB and ABB. The objective of this study was to identify molecular markers that will facilitate discrimination of the A and B genomes, based on restriction-site variations in the internal transcribed spacers (ITS) of the nuclear ribosomal RNA genes. The ITS regions of seven M. acuminata and five M. balbisiana accessions were each amplified by PCR using specific primers. All accessions produced a 700-bp fragment that is equivalent in size to the ITS of most plants. This fragment was then digested with ten restriction enzymes (AluI, CfoI, DdeI, HaeIII, HinfI, HpaII, MspI, RsaI, Sau3AI and TaqI) and fractionated in 2% agarose gels, stained with ethidium bromide and visualized under UV light. The RsaI digest revealed a single 530-bp fragment unique to the A genome and two fragments of 350-bp and 180-bp that were specific to the B genome. A further 56 accessions representing AA, AAA, AAB, AB and ABB cultivars, and synthetic hybrids, were amplified and screened with RsaI. All accessions with an exclusively A genome showed only the 530-bp fragment, while accessions having only the B-genome lacked the 530-bp fragment but had the 350-bp and 180-bp fragments. Interspecific cultivars possessed all three fragments. The staining intensity of the B-genome markers increased with the number of B-genome complements. These markers can be used to determine the genome constitution of Musa accessions and hybrids at the nursery stage, and, therefore, greatly facilitate genome classification in Musa breeding.Communicated by H.F. Linskens     

Two classes of 5S rDNA unit arrays of the silver fir, Abies alba Mill.: structure, localization and evolution

The structure and organization of the 5S ribosomal DNA units of the silver fir, Abies alba Mill., as well as their position in the chromosome complement were investigated. PCR amplification of the gene and nontranscribed spacer region, sequence analysis and Southern hybridization, using a homologous probe, detected DNA sequences of approximately 550 bp and 700 bp. Sequence analysis of the spacers revealed that the difference in length between the sequences occurred in the middle spacer region as a result of the amplification of a 75-bp sequence of the short unit class, which is organized in four 54- to 68-bp tandem repeats in the long spacer unit. The 5S rDNA transcribed region is 120 bp long and shows high sequence similarity with other gymnosperm species. The comparative analysis of 5 and 3 flanking sequences of 5S rRNA genes of silver fir and other gymnosperms indicates that A. alba spacer units have the same rate of evolution and are more closely related to Larix and Pseudotsuga than to Pinus and Picea. Southern hybridization and fluorescence in situ hybridization of metaphase chromosomes of A. alba suggest that the short and long spacer units are organized as separate tandem arrays at two chromosomal loci on chromosomes V and XI.     

Molecular and physical organization of highly repetitive, undermethylated DNA from Pennisetum glaucum

A HaeIIl monomer of a repetitive DNA family from Pennisetum glaucum (L.) R. Br. cv. Massue has been cloned and characterized. The repeat is 137 bp long and is organized in head-to-tail orientation in tandem arrays. The HaeIII monomer contains 55% A+T residues. The distribution of this highly repetitive sequence in different Pennisetum species and in other cereals was investigated. The HaeIII satellite is present in all Pennisetum species investigated but absent from other genera examined. In situ hybridization revealed a centromeric localization of this sequence on all seven chromosome pairs and indicated chromosome-specific differences in copy number. Methylation was investigated by comparative restriction enzyme analysis (Msp/HpaII) which showed a greater extent of methylation of the internal C of the enzyme recognition site 5-CCGG. A South-Western analysis, using an anti-methylcytosine antibody to examine the methylation status in P. glaucum confirmed that the sequence is not highly methylated.     

Polymorphisms in the α-amy1 gene of wild and cultivated barley revealed by the polymerase chain reaction

-Amylases are the key enzymes involved in the hydrolysis of starch in plants. The polymerase chain reaction (PCR) was used to detect polymorphisms in the length of amplified sequences between the annealing sites of two primers derived from published -amy1 gene sequences in barley. These two primers (Bsw1 and Bsw7), flanking the promoter region and the first exon, amplified two PCR fragments in barley. One of the amplified products, with the expected length of 820 bp, appeared together with another shorter PCR band of around 750 bp. This 750-bp fragment seems to be derived from an -amylase gene not reported previously. Both of the PCR products could be amplified from the two-rowed barley varieties tested, including cv Himalaya from which the sequence information was obtained. Five of the six-rowed barley varieties also have the two PCR fragments whereas another two have only the long fragment. These two fragments seem to be unique to barley, neither of them could be amplified from other cereals; for example, wheat, rye or sorghum. These two -amylase fragments were mapped to the long arm of 6H, the location of the -amy1 genes, using wheat-barley addition lines. Amplification of genomic DNA from wild barley accessions with primers Bsw1 and Bsw7 indicated that both of the fragments could be present, or the long and short fragments could be present alone. The results also demonstrated that the genes specifying these two fragments could be independent from each other in barley. The conserved banding pattern of these two fragments in the two-rowed barley varieties implies that artificial selection from these genes may have played an important role in the evolution of cultivated barley from wild barley.     

A family of serine protease genes expressed in adult buffalo fly (Haematobia irritans exigua)

Gene fragments encoding serine proteases expressed in adult buffalo fly (Haematobia irritans exigua) were amplified from cDNA using generic oligonucleotide PCR primers, based on conserved residues surrounding the active-site His and Ser amino acids found in all serine proteases. The PCR product consisted of a broad band extending from about 450 by to 520 bp, which suggested that the PCR product actually consisted of numerous DNA fragments of slightly variable sizes. Seventeen independent clones of these fragments, each with an insert of approximately 480 bp, were digested with HaeIII. Comparison of restriction fragment patterns indicated that 13 of these clones harboured different PCR products. This was confirmed by DNA sequence analysis of 9 clones. Each of the sequenced clones contained an open reading frame which included structurally conserved regions characteristic of the serine protease superfamily. This study reveals the expression of a large and highly variable repertoire of serine proteases in adult buffalo fly. Importantly, these data also demonstrate the utility of such an approach in obtaining DNA probes for use in further investigations of gene family organization and expression, as well as providing recombinant antigens in the form of fusion proteins which may be used as candidates for vaccine production.