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

Chromosomal conservation and sequence diversity of ribosomal RNA genes of two distant Oryza species

Contrary to the chromosomal polymorphism of 45S ribosomal genes (45S rDNA) loci in other Oryza species, each of Oryza australiensis and Oryza brachyantha has only one 45S rDNA locus at the most conserved position of 45S rDNAs in Oryza. O. australiensis and O. brachyantha are known phylogenetically distant and have extremely different genome sizes among diploid Oryza species. This study reveals that the sequences and organizations of intergenic spacer (IGS) for 45S rDNA of both O. australiensis and O. brachyantha are different from other Oryza species. The IGS of O. australiensis contains 13 tandem repeats and only one transcriptional initiation site, while there are four tandem repeats and three transcriptional initiation sites in the IGS of O. brachyantha. Our results suggest different evolution processes of orthologous rDNA loci in the genus Oryza. Here we also demonstrate an efficient strategy to study locus-specific IGS before whole genome sequences data are available.

Structure and chromosomal localization of DNA sequences related to ribosomal subrepeats in Vicia faba

Subrepeating sequences of 325 bp found in the ribosomal intergenic spacer (IGS) of Vicia faba and responsible for variations in the length of the polycistronic units for rRNA were isolated and used as probes for in situ hybridization. Hybridization occurs at many regions of the metaphase chromosomes besides those bearing rRNA genes, namely chromosome ends and all the heterochromatic regions revealed by enhanced fluorescence after quinacrine staining. The DNA homologous to the 325 bp repeats that does not reside in the IGS was isolated, cloned and sequenced. It is composed of tandemly arranged 336 bp elements, each comprising two highly related 168 bp sequences. This structure is very similar to that of the IGS repeats and ca. 75% nucleotide sequence identity can be observed between these and the 168 bp doublets. The most obvious difference lies in the deletion, in the former, of a 14 bp segment from one of the two related sequences. It is hypothesized that the IGS repeats are derived from the 336 bp elements and have been transposed to ribosomal cistrons from other genome fractions. The possible relations between these sequences and others with similar structural features found in other species are discussed.

Termination of transcription of ribosomal RNA genes of mung bean occurs within a 175 bp repetitive element of the spacer region

In mung bean (Vigna radiata, formerly Phaseolus aureus) one length heterogeneity in the intergenic spacer (IGS) of the ribosomal DNA (rDNA) is due to a variable number of 175-bp subrepeats. This spacer region downstream of the 25S rRNA coding region was characterized by sequencing the 2.4 kb EcoRI/HindIII fragment of a 10.5 kb mung bean rDNA repeat. Within the 175-bp repetitive elements a sequence was detected showing strong similarity to the T2/T3-box (GACTTGC) found in Xenopus rDNA and involved in termination and enhancing transcription. In mung bean this sequence partly forms the stem of a possible stem-loop structure at the 3'end of each subrepeat. Nuclease mapping of transcription termination sites (TTS) results in two signals, 65 bp and 315 bp downstream of the 3'end of the 25S rRNA coding region. The longer transcript terminates 20 bp downstream of the stem-loop structure at the end of the first 175-bp subrepeat. A spacer model is proposed which allows "readthrough enhancement". No cross-hybridization was observed between the 180-bp subrepeats in pea (Pisum sativum) rDNA and the mung bean 175-bp subrepeat.

Structural and transcriptional characterization of the external spacer of a ribosomal RNA nuclear gene from a higher plant

A lambda recombinant phage, carrying a radish rDNA fragment spanning the complete external spacer and its borders, has been isolated and characterized by sequencing. The fragment is 2911 bp long and includes 486 bp of the 3' end of the 25S rRNA sequence, 2349 bp of spacer and the first 76 bp of the 5' end of the 18S rRNA sequence. The spacer can be divided into three regions: two unique domains flanking a 830-bp region of repeated sequences. Seven repeats ranging from 80 to 103 bp can be recognized. They are separated by short arrays of 12-21 adenylic residues. Each repeat slightly differs from the others by single-nucleotide changes or short deletions. Examination of single-nucleotide changes common to two units suggests that a duplication arose during the evolution of this sequence. The repeated region was subcloned and used as a probe to demonstrate that it is highly species-specific: in stringent conditions it does not cross-hybridize with the spacer of ribosomal genes from closely related species such as Brassica. Transcription products, starting or finishing within the spacer sequence, were mapped by northern blotting, primer extension and S1 mapping. Two major precursors were identified starting respectively at positions 2095 and 2280. The region surrounding the start at 2095 presents extensive homology with an analogous region in maize, rye, mung bean, Xenopus and tse-tse fly. However, longer transcripts can be detected. Several 3' ends downstream of the 25S terminus were also observed. Taken together these results indicate that rDNA transcription and pre-rRNA processing in plants are more complex than anticipated from previous studies.

Ribosomal RNA genes in plants: variability in copy number and in the intergenic spacer

Ribosomal RNA genes in plants are highly variable both in copy number and in intergenic spacer (IGS) length. This variability exists not only between distantly related species, but among members of the same genus and also among members of the same population of a single species. Analysis of inheritance indicates that copy number change is rapid, occurring even among somatic cells of individual plants, and that up to 90% or more of the gene copies are superfluous. Subrepetitive sequences within the IGS appear to be changing rapidly as well. They are not only variable in sequence from one species to the next, but can vary in number between neighboring gene repeats on the chromosome. In all species examined in detail they are located in the same region of the IGS and contain sequences that can be folded into stem-loop structures flanked by a pyrimidine-rich region. It has been suggested that these subrepeats function in transcriptional enhancement, termination or processing, or in recombination events generating the high multiplicity of ribosomal genes.

Variation in the ribosomal RNA genes among individuals of Vicia faba

Length heterogeneity in the ribosomal repeat of Vicia faba is due to the presence of variable numbers of a 325 bp subrepetitive element within the nontranscribed spacer region. The distribution of size classes among 88 individuals within a population was investigated by blot-hybridization. We find that individual plants can exhibit more than 20 size classes and that hybridization patterns are highly diverse from individual to individual, more so than for any species so far investigated. In contrast, no such differences are observed in patterns for different tissues from a single plant or from parental to F1 generation. Some changes were observed in the F2 generation. We conclude that unequal recombination can give rise to the diversity that we observe for the V. faba rDNA repeats.