Analysis of Orthologous Retrovirus-Like Elements in the White-Footed Mouse,Peromyscus leucopus

Three loci in the genome of the white-footed mouse, Peromyscus leucopus, were examined for the presence or absence of orthologous copies of the retrovirus-like element mys using polymerase chain reaction. We examined these loci in 28 mice collected throughout the P. leucopus species range. Mys insertions were present in only one of the individuals examined at the mys-1 and mys-7 loci. Conversely, the mys-6 element was found in several individuals, but the presence of this element was limited to northern latitudes. Because the long terminal repeats (LTRs) of a given element are expected to be identical at the time of retrotransposition into the genome, and to accumulate changes over evolutionary time, within-element LTR sequence comparisons can be used to estimate the relative age of insertions. Within-element LTR differences are greater in mys-6 than in mys-1 or mys-7. The LTRs from orthologous mys-6 elements of six mice were sequenced. The alignment revealed 13 of the 22 differences between the right and left LTRs that were shared by all orthologous mys-6 sites, suggesting that relative to its time of insertion into the genome, mys-6 has only recently spread across the northern part of the species range. Received: 23 January 1996 / Accepted: 24 April 1996     

Organization of Long Repeats of Sex-Chromosomal Heterochromatin in Common Vole Species

Two long repeats, MS3 and MS4, are predominantly located in sex-chromosomal heterochromatin in common vole species [1]. Their tandem arrangement was revealed by means of the PCR analysis of genomic DNAs of four Microtus species and by restriction mapping of clones selected from a M. rossiaemeridionalis genomic library. Several mobile elements proved to be incorporated in a monomeric unit of each repeat and amplified together with its other components. In addition, LINE inserts were found in MS4 tandem arrays. The copy number of both repeats per haploid genome was estimated at 100–300 for euchromatin and 20,000–40,000 for the M. rossiaemeridionalis genome. The repeats were assumed to be the major component of sex-chromosomal heterochromatin DNA.     

Retrotransposon Mys was active during evolution of the Peromyscus leucopus-maniculatus complex

Mys is a retrovirus-like transposable element found throughout the genus Peromyscus. Several mys subfamilies identified on the basis of restriction site variation occur in more than one species. The distribution of these subfamilies is consistent with the accepted species phylogeny, suggesting that mys was present in the ancestor of Peromyscus and has been active through much of the evolution of this genus. Quantitative Southern blot analysis was used to examine the variability of subfamilies in P. leucopus and maniculatus. We found that subfamilies with phylogenetically narrow distributions were more variable in copy number both within and between species than subfamilies with a broader distribution. Taken together, our data suggest that mys has undergone multiple rounds of transposition since the peromyscine radiation, and that five subfamilies have been amplified during the evolution of the leucopus-maniculatus species complex. Correspondence to: H.A. Wichman     

Construction of a BAC library of Korean ginseng and initial analysis of BAC-end sequences

We estimated the genome size of Korean ginseng ( Panax ginseng C.A. Meyer), a medicinal herb, constructed a Hin dIII BAC library, and analyzed BAC-end sequences to provide an initial characterization of the library. The 1C nuclear DNA content of Korean ginseng was estimated to be 3.33 pg (3.12×10³ Mb). The BAC library consists of 106,368 clones with an average size of 98.61 kb, amounting to 3.34 genome equivalents. Sequencing of 2167 BAC clones generated 2492 BAC-end sequences with an average length of 400 bp. Analysis using BLAST and motif searches revealed that 10.2%, 20.9% and 3.8% of the BAC-end sequences contained protein-coding regions, transposable elements and microsatellites, respectively. A comparison of the functional categories represented by the protein-coding regions found in BAC-end sequences with those of Arabidopsis revealed that proteins pertaining to energy metabolism, subcellular localization, cofactor requirement and transport facilitation were more highly represented in the P. ginseng sample. In addition, a sequence encoding a glucosyltransferase-like protein implicated in the ginsenoside biosynthesis pathway was also found. The majority of the transposable element sequences found belonged to the gypsy type (67.6%), followed by copia (11.7%) and LINE (8.0%) retrotransposons, whereas DNA transposons accounted for only 2.1% of the total in our sequence sample. Higher levels of transposable elements than protein-coding regions suggest that mobile elements have played an important role in the evolution of the genome of Korean ginseng, and contributed significantly to its complexity. We also identified 103 microsatellites with 3–38 repeats in their motifs. The BAC library and BAC-end sequences will serve as a useful resource for physical mapping, positional cloning and genome sequencing of P. ginseng.Electronic Supplementary Material Supplementary material is available in the online version of this article at Communicated by M.-A. Grandbastien     

Characterization and analysis of simple sequence repeat (SSR) loci in seashore paspalum (Paspalum vaginatum Swartz)

A size-fractionated TaqI genomic library of seashore paspalum (Paspalum vaginatum Swartz) was screened for the presence of (GA) _n and (CA) _n simple sequence repeats (SSRs). A total of 54 clones with a positive signal were detected among 13,000 clones screened. Forty-seven clones having repeats of n 3 were identified, of which 85% were perfect, 13% were imperfect and 2% were compound repeat sequences. Five of ten primer pairs synthesized to amplify selected loci resulted in a product in the expected size range and were subsequently used to examine SSR polymorphisms among 46 ecotypes of P. vaginatum. The number of alleles resolved on agarose or polyacrylamide gels were similar and ranged from 6 to 16 with an average of 14 per locus. Phenetic analysis of SSR polymorphisms revealed genetic relationships among the P. vaginatum ecotypes that were in general agreement with relationships determined previously by RAPD analysis of the same plant materials. Further screening of the genomic library did not identify (AT) _n , trimeric or tetrameric repeats. Hybridization of an (ATT)₈ oligonucleotide probe to genomic DNA isolated from I. batatas, E. coli, Citrullis lanatus and P. vaginatum suggested that the P. vaginatum genome contained significantly fewer ATT repeats than either the I. batatas or C. lanatus genome.     

Characterization of microsatellite markers in peach [Prunus persica (L.) Batsch]

Microsatellites have emerged as an important system of molecular markers. We evaluated the potential of microsatellites for use in genetic studies of peach [Prunus persica (L.) Batsch]. Microsatellite loci in peach were identified by screening a pUC8 genomic library, a λZAPII leaf cDNA library, as well as through database searches. Primer sequences for the microsatellite loci were tested from the related Rosaceae species apple (Malus×domestica) and sour cherry (Prunus cerasus L.). The genomic library was screened for CT, CA and AGG repeats, while the cDNA library was screened for (CT)_n- and (CA)_n-containing clones. Estimates of microsatellite frequencies were determined from the genomic library screening, and indicate that CT repeats occur every 100 kb, CA repeats every 420 kb, and AGG repeats every 700 kb in the peach genome. Microsatellite- containing clones were sequenced, and specific PCR primers were designed to amplify the microsatellite- containing regions from genomic DNA. The level of microsatellite polymorphism was evaluated among 28 scion peach cultivars which displayed one to four alleles per primer pair. Five microsatellites were found to segregate in intraspecific peach-mapping crosses. In addition, these microsatellite markers were tested for their utility in cross-species amplification for use in comparative mapping both within the Rosaceae, and with the un- related species Arabidopsis thaliana L. Received: 18 June 1999 / Accepted: 6 December 1999     

Characterization of highly variable (GA/CT) n microsatellites in the bur oak,Quercus macrocarpa

The objective of this study was to ascertain the usefulness of polymerase chain reaction (PCR)-based microsatellite analysis for studying pollination and parentage in a wind-pollinated temperate tree. A small insert genomic library of the bur oak (Quercus macrocarpa) was constructed and screened for the presence of (CA/GT) _n and (GA/CT) _n repeats. The proportion of positive clones yielded estimates of 3×10⁵ such dinucleotide repeats per genome, roughly comparable to abundances reported in other eukaryotic genomes. Thirteen positive clones were sequenced. In contrast to mammalian genomes, the (GA/CT) _n motif was more abundant than the (CA/GT) _n motif in these clones. The (GA/CT) _n repeats also showed longer average repeat length (mean n=16.2 versus 7.3), suggesting that they are better candidates for yielding polymorphic genetic markers in oak genomes. Indeed, a survey of adult bur oaks and offspring in a small stand in northern Illinois at 3 of these (GA/CT) _n microsatellite loci revealed Mendelian inheritance and extremely high levels of polymorphism, with the number of alleles at each locus ranging from 11–20 and heterozygosity ranging from 0.66 to 0.75. These results, indicating that (GA/CT) _n microsatellites are both abundant and highly polymorphic in the bur oak genome, suggest that such genetic markers have tremendous potential for applications for studies of parentage, pollination and dispersal in temperate trees.     

How bats achieve a small C-value: frequency of repetitive DNA in Macrotus

Bats possess a genome approximately 50–87% the size of other eutherian mammals. We document that the events that have achieved or maintained a small genome size in the Mexican leaf-nosed bat Macrotus waterhousii have resulted in a lower copy number of interspersed and tandemly repetitive elements. These conclusions are based on examination of 1726 randomly chosen recombinant cosmids, with an average insert size of 35.7 kb and representing 2.6% of the haploid genome of M. waterhousii. Probes representative of microsatellites [(GT)_n, (CT)_n, (AT)_n, (GC)_n] and a tandem repeat (rDNA) were used to estimate frequency of repetitive elements in the M. waterhousii genome. Of the four dinucleotides, (GT)_n was present in 33.5% of the clones, (CT)_n was present in 31.0% of the clones, and (AT)_n and (GC)_n were not represented in any of the clones examined. The 28S rDNA and a repetitive element from M. californicus were found in three and four clones, respectively. The dinucleotides (GT)_n and (CT)_n occurred together in the same clone more frequently than expected from chance. Although our data do not allow us to empirically test which mechanisms are maintaining copy number of repetitive DNA in the bat genome, the nonrandom association of these different families of repetitive DNA may provide insight into a mechanism that proportionately reduces diverse families of repetitive DNA that are known to be amplified by very different mechanisms.     

Fosmid library construction and end sequences analysis of the Pacific oyster,Crassostrea gigas

The Pacific oyster (Crassostrea gigas) is globally distributed and is one of the most commercially and ecologically important marine organisms. However, little is known about the genome of this species. In this study, a C. gigas fosmid library was constructed that contains 459,936 clones with an average insert size of approximately 40 kb, representing 22.34-fold haploid genome equivalents. End sequencing generated 90,240 fosmid end sequences (FESs) with an average length of 384.27 base pairs (bp), covering approximately 2.58% of the Pacific oyster genome. The FESs were subsequently assembled and annotated, resulting in 6332 sequences with predicted open reading frames≥300 and 1,189,100 bp repeats. Furthermore, a total of 3200 microsatellite repeats were identified, and dinucleotide repeats were found to occur most abundantly, with AG and AAT being the most abundant repeat class of dinucleotides and trinucleotides. We also found that the repeat number was generally negatively proportional to the repeat element length. Microsatellites composition between the transcribed sequences and genomic sequences was shown to be different. Point mutations of microsatellite were non-random and underwent strong selection stress. Overall, a comprehensive sequence resource for the Pacific oyster was created, including annotated transposable elements, tandem repeats, protein coding sequences and microsatellites. These initial findings will serve as resources for further in-depth studies of physical mapping, gene discovery, microsatellite marker developing and evolution studies.     

Characterization and mapping of sequence-tagged microsatellite sites in the chickpea ( Cicer arietinum L.) genome

A size-selected genomic library comprising 280,000 colonies and representing ≈18% of the chickpea genome, was screened for (GA)_n, (GAA)_n and (TAA)_n microsatellite-containing clones, of which 389 were sequenced. The majority (∼75%) contained perfect repeats; interrupted, interrupted compound and compound repeats were only present in 6%–9% of cases. (TAA)-microsatellites contained the longest repeats, with unit numbers from 9 to 131. For 218 loci primers could be designed and used for the detection of microsatellite length polymorphisms in six chickpea breeding cultivars, as well as in C. reticulatum and C. echinospermum, wild, intercrossable relatives of chickpea. A total of 174 primer pairs gave interpretable banding patterns, 137 (79%) of which revealed at least two alleles on native polyacrylamide gels. A total of 120 sequence-tagged microsatellite site (STMS) markers were genetically mapped in 90 recombinant inbred lines from an inter-species cross between C. reticulatum and the chickpea cultivar ICC 4958. Markers could be arranged in 11 linkage groups (at a LOD score of 4) covering 613 cM. Clustering as well as random distribution of loci was observed. Segregation of 46 markers (39%) deviated significantly (P ≥ 0.05) from the expected 1:1 ratio. The majority of these loci (73%) were located in three distinct regions of the genome. The present STMS marker map represents the most advanced co-dominant DNA marker map of the chickpea genome. Received: 14 January 1999 / Accepted: 29 April 1999     

Toward closing rice telomere gaps: mapping and sequence characterization of rice subtelomere regions

Despite the collective efforts of the international community to sequence the complete rice genome, telomeric regions of most chromosome arms remain uncharacterized. In this report we present sequence data from subtelomere regions obtained by analyzing telomeric clones from two 8.8 × genome equivalent 10-kb libraries derived from partial restriction digestion with HaeIII or Sau3AI (OSJNPb HaeIII and OSJNPc Sau3AI). Seven telomere clones were identified and contain 25–100 copies of the telomere repeat (CCCTAAA)_n on one end and unique sequences on the opposite end. Polymorphic sequence-tagged site markers from five clones and one additional PCR product were genetically mapped on the ends of chromosome arms 2S, 5L, 10S, 10L, 7L, and 7S. We found distinct chromosome-specific telomere-associated tandem repeats (TATR) on chromosome 7 (TATR7) and on the short arm of chromosome 10 (TATR10s) that showed no significant homology to any International Rice Genome Sequencing Project (IRGSP) genomic sequence. The TATR7, a degenerate tandem repeat which is interrupted by transposable elements, appeared on both ends of chromosome 7. The TATR10s was found to contain an inverted array of three tandem repeats displaying an interesting secondary folding pattern that resembles a telomere loop (t-loop) and which may be involved in a protective function against chromosomal end degradation.Electronic Supplementary Material Supplementary material is available for this article at     

Development and characterization of microsatellite markers in the sexual-apomictic complex Taraxacum officinale (dandelion)

 Microsatellite markers were developed in Taraxacum officinale to study gene flow between sexual and apomictic plants and to identify clones. Twenty five thousand genomic DNA clones were hybridized with a (CT)₁₂D probe. The density of (GA/CT) _n repeats was estimated at one every 61 kb in the T. officinale genome, which translates to 13 500 repeats per haploid genome. Ninety two percent of 110 positive clones sequenced contained at least one (GA/CT) _n≥5 repeat. Sixteen (CA/GT) _n≥5 and 11 (AT) _n≥5 arrays were also found in these sequences, suggesting some clustering of dinucleotide repeats. Among 50 PCR primer pairs tested, 32 produced bands and 28 of them were polymorphic. Of these polymorphic markers, 15 were putatively single-locus and the other 13 produced only polymorphic fingerprints. Six loci were further characterized for polymorphism and showed between 6 and 32 alleles per locus. Among eight primer pairs used to analyze the progeny of a sexual cross, seven were co-dominant single-locus Mendelian markers, but one (MSTA10) gave a dominant pattern in accordance with the hypothesis of a null allele segregating in a Mendelian fashion. Three pairs of loci among 28 showed significant linkages of 10, 21, and 39 cM. Observed and expected heterozygosities in two sexual populations indicate that null alleles may be present at two loci, including MSTA10. Received: 4 November 1997 / Accepted: 12 February 1998     

Creation of a SINE enriched library for the isolation of polymorphic (AGC)n microsatellite markers in the bovine genome

Trinucleotide (AGC)_n microsatellites are found as 3′ tails of the artiodactyl short interspersed nuclear element (SINE) A-dimer. We describe a polymerase chain reaction (PCR)-based method for the construction of a plasmid library enriched for SINE (AGC)_n microsatellites. By amplifying Sau3AI inserts with a conserved SINE primer and a flanking vector primer, a 35-fold enrichment of (AGC)_n microsatellites over a conventional genomic library was obtained. The SINE primer was used for both sequencing of AGC-containing inserts and analysis of polymorphism. Twenty-three unique reverse primers were synthesized and used on bovine genomic DNA, 21 producing PCR products of expected size. Five polymorphic (AGC)_n microsatellites with 2–4 alleles each were characterized. Allele sizes differed by a 3 bp motif and lacked the stutter bands associated with dinucleotide repeats. A tendency of increased polymorphism for longer AGC repeat arrays was observed. High stringency selection for positive clones containing eight or more AGC repeats can thus facilitate the isolation of polymorphic (AGC)_n microsatellites, Enrichment for (AGC), microsatellites by SINE-vector PCR can be applied to other bovidae species, such as sheep or goat, containing the artiodactyl SINE elements.     

Pot2, an inverted repeat transposon from the rice blast fungus Magnaporthe grisea

We report the cloning and characterisation of Pot2, a putative transposable element from Magnaporthe grisea. The element is 1857 by in size, has 43-bp perfect terminal inverted repeats (TIRs) and 16-bp direct repeats within the TIRs. A large open reading frame, potentially coding for a transposase-like protein, was identified. This putative protein coding region showed extensive identity to that of Fott, a transposable element from another phytopathogenic fungus, Fusarium oxysporum. Pot2, like the transposable elements Tc1 and Mariner of Caenorhabditis elegans and Drosophila, respectively, duplicates the dinucleotide TA at the target insertion site. Sequence analysis of DNA flanking 12 Pot2 elements revealed similarity to the consensus insertion sequence of Tct. Pot2 is present at a copy number of approximately 100 per haploid genome and represents one of the major repetitive DNAs shared by both rice and non-rice pathogens of M. grisea.     

Limited variability of CTG/CAG repeats in <Emphasis Type="Italic">Lycopersicon</Emphasis> nuclear DNA

Seven clones containing (CTG)_n/(CAG)_n repeats (n ≥ 4) were isolated by screening Lycopersicon esculentum genomic DNA. Four of the clones contained more than one simple sequence repeat (SSR). The SSRs were analyzed in several L. esculentum cultivars after polymerase chain reaction (PCR) amplification. No length variations were observed, suggesting considerable locus stability. Five clones are from transcribed regions, which might explain the lack of cultivar variations. However the conservation of CTG repeats was limited as differences in some transcribed loci were registered between L. pennellii and other Lycopersicon species. It is noted that in Lycopersicon trinucleotide repeat variation might be used for species identification.     

Development of microsatellite markers for mango (Mangifera indica L.)

Microsatellite markers for mango (Mangifera indica L.) were developed using a genomic library enriched for (GA)_n and (GT)_n dinucleotide repeats. A subset of 41 positive clones was sequenced and primers were designed. Twenty‐eight primer pairs produced polymorphic amplification products for a diversity sample including 15 mango cultivars and two accessions from the related species Mangifera laurina and Mangifera applanata. Nineteen simple sequence repeat (SSR) loci with clear scorable patterns were chosen to study diversity in the mango germplasm bank of Guadalupe (FWI). The number of alleles ranged from three to 13 with observed levels of heterozygosity ranging from 0.059 to 0.857.     

Construction and Characterization of Two Bacterial Artificial Chromosome Libraries of Grass Carp

Bacterial artificial chromosome (BAC) library is an important tool in genomic research. We constructed two libraries from the genomic DNA of grass carp (Ctenopharyngodon idellus) as a crucial part of the grass carp genome project. The libraries were constructed in the EcoRI and HindIII sites of the vector CopyControl pCC1BAC. The EcoRI library comprised 53,000 positive clones, and approximately 99.94% of the clones contained grass carp nuclear DNA inserts (average size, 139.7 kb) covering 7.4× haploid genome equivalents and 2% empty clones. Similarly, the HindIII library comprised 52,216 clones with approximately 99.82% probability of finding any genomic fragments containing single-copy genes; the average insert size was 121.5 kb with 2.8% insert-empty clones, thus providing genome coverage of 6.3× haploid genome equivalents of grass carp. We selected gene-specific probes for screening the target gene clones in the HindIII library. In all, we obtained 31 positive clones, which were identified for every gene, with an average of 6.2 BAC clones per gene probe. Thus, we succeeded in constructing the desired BAC libraries, which should provide an important foundation for future physical mapping and whole-genome sequencing in grass carp.     

A BAC library of <Emphasis Type="Italic">Beta vulgaris</Emphasis> L. for the targeted isolation of centromeric DNA and molecular cytogenetics of <Emphasis Type="Italic">Beta</Emphasis> species

We constructed a sugar beet (Beta vulgaris) bacterial artificial chromosome (BAC) library of the monosomic addition line PAT2. This chromosomal mutant carries a single additional chromosome fragment (minichromosome) derived from the wild beet Beta patellaris. Restriction analysis of the mutant line by pulsed-field gel electrophoresis was used to determine HindIII as a suitable enzyme for partial digestion of genomic DNA to generate large-insert fragments which were cloned into the vector pCC1. The library consists of 36,096 clones with an average insert size of 120 kb, and 2.2% of the clones contain mitochondrial or chloroplast DNA. Based on a haploid genome size of 758 Mbp, the library represents 5.7 genome equivalents providing the probability of 99.67% that any sequence of the PAT2 genome can be found in the library. Hybridization to high-density filters was used to isolate 89 BACs containing arrays of the centromere-associated satellite repeats pTS5 and pTS4.1. Using the identified BAC clones in fluorescent in situ hybridization experiments with PAT2 and Beta patellaris chromosome spreads their wild beet origin and centromeric localization was demonstrated. Multi-colour FISH with differently labelled satellite repeats pTS5 and pTS4.1 was used to investigate the large-scale organization of the centromere of the PAT2 minichromosome in detail. FISH studies showed that the centromeric satellite pTS5 is flanked on both sides by pTS4.1 arrays and the arms of the minichromosome are terminated by the Arabidopsis-type telomeric sequences. FISH with a BAC, selected from high-density filters after hybridization with an RFLP marker of the genetic linkage group I, demonstrated that it is feasible to correlate genetic linkage groups with chromosomes. Therefore, the PAT2 BAC library provides a useful tool for the characterization of Beta centromeres and a valuable resource for sugar beet genome analysis.     

Characterization and mapping of sequence-tagged microsatellite sites in the chickpea (Cicer arietinum L.) genome

A size-selected genomic library comprising 280,000 colonies and representing ≈18% of the chickpea genome, was screened for (GA)_n, (GAA)_n and (TAA)_n microsatellite-containing clones, of which 389 were sequenced. The majority (～75%) contained perfect repeats; interrupted, interrupted compound and compound repeats were only present in 6%–9% of cases. (TAA)-microsatellites contained the longest repeats, with unit numbers from 9 to 131. For 218 loci primers could be designed and used for the detection of microsatellite length polymorphisms in six chickpea breeding cultivars, as well as in C. reticulatum and C. echinospermum, wild, intercrossable relatives of chickpea. A total of 174 primer pairs gave interpretable banding patterns, 137 (79%) of which revealed at least two alleles on native polyacrylamide gels. A total of 120 sequence-tagged microsatellite site (STMS) markers were genetically mapped in 90 recombinant inbred lines from an inter-species cross between C. reticulatum and the chickpea cultivar ICC 4958. Markers could be arranged in 11 linkage groups (at a LOD score of 4) covering 613?cM. Clustering as well as random distribution of loci was observed. Segregation of 46 markers (39%) deviated significantly (P?≥?0.05) from the expected 1:1 ratio. The majority of these loci (73%) were located in three distinct regions of the genome. The present STMS marker map represents the most advanced co-dominant DNA marker map of the chickpea genome.     

Variable (CA/GT)n simple sequence repeat DNA in the alga Chlamydomonas

A partial genomic DNA library of Chlamydomonas reinhardtii was screened with an (AC)₁₁ probe for the presence of (CA/GT)_n simple sequence repeats (SSRs). Based on the frequency of these repeats in the partial genomic library, we estimate that (CA/GT)_n repeats occur at a rate of about one every 17.7 kb in the C. reinhardtii genome. Ten positive clones were sequenced and four polymerase chain reaction (PCR) primer sets flanking (CA/GT)_n sequences were constructed for four loci. The PCR was used to specifically amplify these regions from multiple isolates of C. reinhardtii. All four loci were highly polymorphic in the C. reinhardtii isolates. A simple Mendelian inheritance pattern was found for all four loci, which showed 2:2 segregation in the tetrads resulting from a cross between C. reinhardtii and C. smithii. Our results suggest that these simple sequence repeat DNA loci will be useful for identity testing, population studies, linkage analysis, and genome mapping in Chlamydomonas.