Quantitative evolution of transposable and satellite DNA sequences in Picea species

Clones containing tandemly arranged repeats belonging to two distinct sequence families, (i) PAG004P22F (2F) and PAG004E03C (3C) or (ii) Ty3/gypsy- (8R; PAG004B08R) and Ty1/copia-like sequences (9R; PAG007F19R), were selected from a randomly sheared total genomic DNA library of Picea abies . The inserts were used as probes in dot-blot hybridizations to genomic DNA of P. abies, Picea orientalis , Picea pungens , and Picea pungens var. glauca. All these entities are diploid and share the same chromosome number (2n = 24), but the genome sizes differ largely. The redundancy (copy number per 1C DNA) of sequences related to each probe varied greatly between the genomes. No significant correlation was found between the genome size and the copy number of sequences in any family. The quantitative ratios varied greatly (in each genome) between the two families of satellite DNA, between the sequences that represented copia or gypsy retrotransposons, and between tandemly arranged sequences and retroelements as a whole, suggesting that there is no common factor that controls the quantitative evolution of repeats belonging to different sequence families during speciation in Picea.     

Characterization of the chromosome complement of Helianthus annuus by in situ hybridization of a tandemly repeated DNA sequence.

A tandemly repeated sequence isolated from a clone (HAG004N15) of a nebulized genomic DNA library of sunflower (Helianthus annuus L., 2n = 34) was characterized and used to study the chromosome complement of sunflower. HAG004N15 repeat units (368 bp in length) were found to be highly methylated, and their copy number per haploid (1C) genome was estimated to be 7800. After in situ hybridization of HAG004N15 repeats onto chromosome spreads, signals were observed at the end of both chromosome arms in 4 pairs and at the end of only one arm in 8 other pairs. Signals were also observed at the intercalary (mostly subtelomeric) regions in all pairs, in both arms in 8 pairs, and in only one arm in the other 9 pairs. The short arm of 1 pair was labelled entirely. The chromosomal location of ribosomal DNA was also studied by hybridizing the wheat ribosomal probe pTa71. Four chromosome pairs contained ribosomal cistrons at the end of their shorter arm, but a satellite was seen in only 3 pairs. These hybridization patterns were the same in the 3 sunflower lines studied (HA89, RA20031, and HOR). The chromosomal localization of HAG004N15-related sequences allowed all of the chromosome pairs to be distinguished from each other, in spite of small size and similar morphology.     

Cryptic long internal repeat sequences in the ribosomal DNA ITS1 gene of the dinoflagellate Cochlodinium polykrikoides (dinophyceae): a 101 nucleotide six-repeat track with a palindrome-like structure

Extremely long PCR fragments were generated by PCR amplification of ITS and 5.8S rDNA from Cochlodinium polykrikoides against other dinoflagellates. These patterns were consistent among geographically different isolates of C. polykrikoies. DNA sequencing reactions revealed that the PCR products were 1,166 bp in length and consisted of 813 bp of ITS1, 160 bp of 5.8S rDNA and 193 bp of ITS2. Thus, the long length was caused mainly by the long ITS1 sequence. Cryptically, the ITS1 contained a tract of 101 bp that occurs six times in tandem. The six repeated elements had identical nucleotide sequences. ITS1, therefore, separated three distinct regions: the 5' end (122 bp), the six parallel repeats (606 bp), and the 3' region (85 bp). Interestingly, both the single and six-repeat sequences should be palindrome-like sequences. In inferred secondary structures, both repeat sequences formed a long helical structure. This is the first reported discovery of comparatively long internal repeats in the ITS1 of dinoflagellates.     

Karyotype of Norway spruce by multicolor FISH

The chromosomes (2n = 2x = 24) of Norway spruce are very large since their size reflects the huge amount of genomic DNA (2C = 30 × 10⁹ bp). However, the identification of homologous pairs is hampered by their high degree of similarity at the morphological level. Data so far presented in the literature were not sufficient to solve all the ambiguities in chromosome identification. Several genomic Norway spruce DNA clones containing highly repetitive sequences have been identified and characterised in our laboratory. Three of them were selected for fluorescent in situ hybridization (FISH) experiments because of their strong signals and suitability for chromosome identification: PATR140 hybridized at the centromeric site of three chromosome pairs; PAF1 hybridized in six subtelomeric and two centromeric sites; 1PABCD6 co-localized with the subtelomeric sites identified by PAF1. The statistical analysis of microscopic measurements of chromosomes in combination with the FISH signals of these probes allowed the unambigous construction of Norway spruce karyotype. We also compared the karyotype of Norway spruce with that of other spruce species to infer the number and kind of rearrangements that have occurred during the evolution of these species.Communicated by D.B. Neale     

Repeats and subrepeats in the intergenic spacer of rDNA from the nematode Meloidogyne arenaria

Summary Ribosomal DNA (rDNA) repeats of the plant-parasitic nematode Meloidogyne arenaria are heterogeneous in size and appear to contain 5S rRNA gene sequences. Moreover, in a recA ⁺ bacterial host, plasmid clones of a 9 kb rDNA repeat show deletion events within a 2 kb intergenic spacer (IGS), between 28S and 5S DNA sequences. These deletions appear to result from a reduction in the number of tandem 129 by repeats in the IGS. The loss of such repeats might explain how rDNA length heterogeneity, observed in the Meloidogyne genome, could have arisen. Each 129 by repeat also contains three copies of an 8 by subrepeat, which has sequence similarity to an element found in the IGS repeats of some plant rDNAs.     

Analysis of a large nontranscribed spacer in the ribosomal DNA of the house cricket,Acheta domesticus (Orthoptera:Gryllidae)

An analysis of a 29-kilobase nontranscribed spacer fragment in the ribosomal DNA (rDNA) of the house cricket, Acheta domesticus, revealed a highly repetitious structure. A total of eight EcoRI repeats of three different size classes measuring 259, 420, and 508 base pairs (bp) was mapped to a region 2 kilobases (kb) from the 18 S coding region. The repeats were oriented in a nonrandom manner and had sequences homologous to DNA located immediately adjacent to the repetitive array. DNA sequence analysis showed that the repetitive region was composed of smaller direct repeats 66, 67, and 383 bp in length. There was minor length heterogeneity of the chromosomal restriction fragments containing the entire array, indicating that a variable number of EcoRI repeats is a minor contributor to the total repeat-unit length heterogeneity. Immediately upstream from the EcoRI array there is a 17-kb region composed of 50 to 60 subrepeat elements recognized by a variety of restriction endonucleases. A subcloned SmaI repeat from the array was not homologous to any other part of the rDNA repeat unit or other chromosomal DNA. There was little length heterogeneity in restriction fragments containing the chromosomal 17-kb repetitions region. Immediately upstream from the 17-Kb region there is a 4.1-kb segment with sequences homologous to the EcoRI repeats.     

Telomere and 45S rDNA sequences are structurally linked on the chromosomes in <Emphasis Type="Italic">Chrysanthemum segetum</Emphasis> L.

Some reports have shown that nucleolar organizer regions are located at the telomeric region and have a structural connection with telomeres at the cellular level in many organisms. In this study, we found that all 45S ribosomal DNA (rDNA) signals were located at telomeric regions on the chromosomes in Chrysanthemum segetum L., and the 45S rDNA showed distinct signal patterns on different metaphase chromosome spreads. The bicolor fluorescence in situ hybridization experiment on the extended fibers revealed that telomere repeats were structurally connected with or interspersed into rDNA sequences. The close cytological structure relation between rDNA and telomere sequences led us to use PCR with combinations of the telomere primer and the rDNA primer to obtain some fragments, which were flanked by different rDNA and telomere primer sequences. One representative clone CHS2 contains closely connected rDNA and telomere sequences, suggesting that the telomere sequence invaded into the conserved rDNA sequence. In addition, the sequences of some PCR clones were flanked by the single telomeric primer sequence or the rDNA primer sequence. These results suggested that homologous recombination occurred between tandem repeat units of rDNA sequences or telomere repeats at the chromosome terminus.     

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.     

The molecular organisation of a B chromosome tandem repeat sequence fromBrachycome dichromosomatica

A high copy, tandemly repeated, sequence (Bd49) specific to the B chromosome and located near the centromere in Brachycome dichromosomatica was used to identify lambda genomic clones from DNA of a 3B plant. Only one clone of those analysed was composed entirely of a tandem array of the B-specific repeat unit. In other clones, the Bd49 repeats were linked to, or interspersed with, sequences that are repetitious and distributed elsewhere on the A and B chromosomes. One such repetitious flanking sequence has similarity to retrotransposon sequences and a second is similar to chloroplast DNA sequences. Of the four separate junctions analysed of Bd49-like sequence with flanking sequence, three were associated with the same A/T-rich region in Bd49 and the fourth was close to a 25 bp imperfect dyadic sequence. No novel B-specific sequences were detected within the genomic clones. Received: 31 December 1995; in revised form: 1 May 1996 / Accepted: 10 May 1996     

Novel repeated DNA sequences in safflower (Carthamus tinctorius L.) (Asteraceae): cloning, sequencing, and physical mapping by fluorescence in situ hybridization

Two novel repetitive DNA sequences, pCtKpnI-1 and pCtKpnI-2, were isolated from Carthamus tinctorius (2n = 2x = 24) and cloned. Both represent tandemly repeated sequences. The pCtKpnI-1 and pCtKpnI-2 clones constitute repeat units of 343-345 bp and 367 bp, respectively, with 63% sequence heterogeneity between the two. Fluorescence in situ hybridization (FISH) was employed on metaphase chromosomes of C. tinctorius using, simultaneously, pCtKpnI-1 and pCtKpnI-2 repeated sequences. The pCtKpnI-1 sequence was found to be exclusively localized at subtelomeric regions on most of the chromosomes. On the other hand, sequence of the pCtKpnI-2 clone was distributed on two nucleolar and one nonnucleolar chromosome pairs. The satellite, and the intervening chromosome segment between the primary and secondary constrictions, in the two nucleolar chromosome pairs were wholly constituted by pCtKpnI-2 repeated sequence. The pCtKpnI-2 repeated sequence, showing partial homology to intergenic spacer (IGS) of 18S-25S ribosomal RNA genes of an Asteraceae taxon (Centaurea stoebe), and the 18S-25S rRNA gene clusters were located at independent, but juxtaposed sites in the nucleolar chromosomes. Variability in the number, size, and location of the two repeated sequences provided identification of most of the chromosomes in the otherwise not too distinctive homologues within the complement. This article reports the start of a molecular cytogenetics program targeting the genome of safflower, a major world oil crop about whose genetics very little is known.     

5S rDNA genome regions of Lens species.

The length variability of the nontranscribed spacer (NTS) of the 5S rDNA repeats was analyzed in species of the genus Lens by means of PCR amplification. The NTS ranged from approximately 227 to approximately 952 bp. The polymorphism detected was higher than previous NTS polymorphisms described in this genus. Three NTS length variants from Lens culinaris subsp. culinaris and 2 from Lens culinaris subsp. orientalis were sequenced. The culinaris NTS fragment lengths were 239, 371, and 838 bp, whereas the orientalis ones were 472 bp and 506 bp, respectively. As a result of sequence similarities, 2 families of sequences were distinguished, 1 including the sequences of 838 and 506 bp, and others with the sequences of 239, 371, and 472 bp. The 1st family was characterized by the presence of a repeated sequence designated A, whereas the 2nd family showed a single A sequence and other repeated sequences designated B, C, and D. The presence of an (AT)n microsatellite was also observed in the 2nd family of sequences. The fragments, which included the 239-bp and 838-bp NTS sequences, as well as the intergenic spacer (IGS) of the 18S-5.8S-26S ribosomal DNA also from L. culinaris subsp. culinaris, were used to localize the nucleolar organizer region (NOR) and the 5S rDNA loci in the chromosomes of several species of the genus Lens by means of fluorescence in situ hybridization (FISH). The selective hybridization of the 2 NTS probes allowed us to distinguish between different 5S rDNA chromosomal loci.     

Cloning and structural analyses of partial nuclear rDNA fromBupleurum euphorbioides (Apiaceae)

For the cloning of nuclear ribosomal DNA (rDNA) fromBupleurum euphorbioides (Apiaceae), ten clones were screened by DNA-DNA hybridization method. Among them, two clones were strongly hybridized with a heterologous probe of rice rDNA and with an autologous probe of an internally-transcribed region ofB. euphorbioides amplified by PCR. We sequenced both ends of the two genomic clones aligned with a known sequence of rDNA. ITS2 sequences of the two clones showed 98% and 83% homology with the ITS2 sequence ofB. euphorbioides. Our clones showed 1 bp and 3 bp nucleotide substitutions in the 25S and intergenic spacer regions, respectively, and the ITS1 and 18S regions were both missing. Restriction enzyme sites and the orientation of both clones were analyzed for physical mapping purposes. Apart from the length difference between the two clones, we found restriction site variations in the 25S and intergenic spacer regions.     

The heterochromatin of grasshoppers from the Caledia captiva species complex. I. Sequence evolution and conservation in a highly repeated DNA family

The restriction enzyme TaqI digests 0.2% of the genomic DNA from the grasshopper Caledia captiva to a family of sequences 168 bp in length (length of consensus sequence). The sequence variation of this "Taq family" of repeat units was examined among four races from C. captiva to assay the pattern of evolution within this highly repeated DNA. The Taq-family repeats are located in C-banded heterochromatin on at least one member of each homologous pair of chromosomes; the locations range from centromeric to telomeric. Thirty-nine cloned repeats isolated from two population 1A individuals along with 11 clones from seven populations taken from three of the races demonstrated sequence variation at 72 positions. Pairwise comparisons of the cloned repeats, both within an individual and between different races, indicate that levels of intraspecific divergence, as measured by reproductive incompatibility, do not correlate with sequence divergence among the 168-bp repeats. A number of subsequences within the repeat remain unchanged among all 50 clones; the longest of these is 18 bp. That the same 18-bp subsequence is present in all clones examined is a finding that departs significantly (P less than 0.01) from what would be expected to occur at random. Two other cloned repeats, from a reproductively isolated race of C. captiva, have sequences that show 56% identity with this 18-bp conserved region. An analysis showed that the frequency of occurrence of an RsaI recognition site within the 168- bp repeat in the entire Taq family agreed with that found in the cloned sequences. These data, along with a partial sequence for the entire Taq family obtained by sequencing uncloned repeats, suggest that the consensus sequence from the cloned copies is representative of this highly repeated family and is not a biased sample resulting from the cloning procedure. The 18-bp conserved sequence is part of a 42-bp sequence that possesses dyad symmetry typical of protein-binding sites. We speculate that this may be significant in the evolution of the Taq family of sequences.      

The relationship between two tandem repeat families in rye heterochromatin

A bacterial artificial chromosome (BAC) library constructed from the short arm of rye (Secalecereale L.) chromosome 1R has been screened for clones containing copies of the pSc200 tandem repeat family, most abundant in rye subtelomeric heterochromatin. The molecular organization of the monomer array and adjacent sequences has been studied in BAC-126/C20. Digestion of the array with various restriction endonucleases reveals no higher-order organization. The DNA adjacent to the pSc200 array consists of different repeats, including retrotransposon derivatives and another tandemly repeated family, termed XbaI, with a monomer length of 576 bp, 475 of which show 82% similarity to the long terminal repeat of the known Cereba retrotransposon. Sequencing of the 13 kb long genomic region in BAC-126/C20 revealed a direct junction of the pSc200 and XbaI monomers. The arrays of both families terminate at the same AT-rich sequence CAAAAAT. Another recombination signal is the presence of palindromes in the close proximity to the junction site. The presence of microhomologies promotes the action of proteins involved in double-strand DNA break repair. To our knowledge, it is the first discovery of the direct junction of monomers that are longer than 100 bp and belong to different families of plant tandem repeats.     

Structural analysis of a Lotus japonicus genome. V. Sequence features and mapping of sixty-four TAC clones which cover the 6.4 mb regions of the genome.

We determined the nucleotide sequences of 64 TAC (transformation-competent artificial chromosome) clones selected from genomic libraries of Lotus japonicus accession Miyakojima MG-20 based on the sequence information of expressed sequence tags (ESTs), cDNAs, genes and DNA markers from L. japonicus and other legumes. The length of the DNA regions sequenced in this study was 6,370,255 bp, and the total length of the L. japonicus genome sequenced so far is 32,537,698 bp together with the nucleotide sequences of 256 TAC clones previously reported. Five hundred forty-eight potential protein-encoding genes with known or predicted functions, 127 gene segments and 224 pseudogenes were assigned to the newly sequenced regions by computer prediction and similarity searches against the sequences in protein and EST databases. Based on the nucleotide sequences of the clones, simple sequence repeat length polymorphism (SSLP) or derived cleaved amplified polymorphic sequence (dCAPS) markers were generated, and each clone was genetically localized onto the linkage map of two accessions of L. japonicus, MG-20 and Gifu B-129. The sequence data, gene information and mapping information are available through the World Wide Web at http://www.kazusa.or.jp/lotus/.     

The development of BAC-end sequence-based microsatellite markers and placement in the physical and genetic maps of soybean

The composite map of soybean shared among Soybase, LIS and SoyGD (March 2006) contained 3,073 DNA markers in the "Locus" class. Among the markers were 1,019 class I microsatellite markers with 2-3 bp simple sequence repeats (SSRs) of >10 iterations (BARC-SSR markers). However, there were few class II SSRs (2-5 bp repeats with <10 iterations; mostly SIUC-Satt markers). The aims here were to increase the number of classes I and II SSR markers and to integrate bacterial artificial chromosome (BAC) clones onto the soybean physical map using the markers. Used was 10 Mb of BAC-end sequence (BES) derived from 13,473 reads from 7,050 clones constituting minimum tile path 2 of the soybean physical map ( http://www.soybeangenome.siu.edu ; SoyGD). Identified were 1,053 1-6 bp motif, repeat sequences, 333 from class I (>10 repeats) and 720 from class II (<10 repeats). Potential markers were shown on the MTP_SSR track at Gbrowse. Primers were designed as 20-24 bp oligomers that had Tm of 55 +/- 1 C that would generate 100-500 bp amplicons. About 853 useful primer pairs were established. Motifs were not randomly distributed with biases toward AT rich motifs. Strong biases against the GC motif and all tetra-nucleotide repeats were found. The markers discovered were useful. Among the first 135 targeted for use in genetic map improvement about 60% of class II markers and 75% of class I markers were polymorphic among on the parents of four recombinant inbred line (RIL) populations. Many of the BES-based SSRs were located on the soybean genetic map in regions with few BARC-SSR markers. Therefore, BES-based SSRs represent useful tools for genetic map development in soybean. New members of a consortium to map the markers in additional populations are invited.     

Identification and nucleotide sequence of Rhizobium meliloti insertion sequence ISRm3: similarity between the putative transposase encoded by ISRm3 and those encoded by Staphylococcus aureus IS256 and Thiobacillus ferrooxidans IST2.

The insertion sequence ISRm3 was discovered simultaneously in different Rhizobium meliloti strains by probing Southern blots of total cellular DNA with 32P-labeled pTA2. This plasmid is indigenous to strain IZ450 and fortuitously contained four copies of ISRm3. By using an internal EcoRI fragment as a specific probe (pRWRm31), homology to ISRm3 was subsequently detected in over 90% of R. meliloti strains tested from different geographical locations around the world. The frequency of stable nonlethal ISRm3 transpositions was estimated to be 4 x 10(-5) per generation per cell in strain SU47 when grown in liquid culture. The entire nucleotide sequence of ISRm3 in R. meliloti 102F70 is 1,298 bp and has 30-bp terminal inverted repeats which are perfectly matched. Analysis of six copies of ISRm3 in two strains showed that a variable number of base pairs (usually eight or nine) were duplicated and formed direct repeats adjacent to the site of insertion. On one DNA strand, ISRm3 contains an open reading frame spanning 93% of its length. Comparison of the putative protein encoded with sequences derived from the EMBL and GenBank databases showed significant similarity between the putative transposases of ISRm3 from R. meliloti, IS256 from Staphylococcus aureus, and IST2 from Thiobacillus ferroxidans. These insertion sequences appear to be distantly related members of a distinct class.