Abundance, polymorphism and genetic mapping of microsatellites in rice

Dinucleotide microsatellites have been characterized and used as genetic markers in rice. Screening of a rice genomic library with poly(dG-dA)·(dC-dT) and poly(dG-dT)·(dC-dA) probes indicated that (GA)_n repeats occurred, on average, once every 225 kb and (GT)_n repeats once every 480 kb. DNA sequencing of ten randomly selected microsatellites indicated that the numbers of repeats ranged from 12 to 34 and that the patterns of microsatellites in rice were similar to those of humans and other mammals. Primers to these microsatellite loci as well as to four published microsatellite-containing sequences have been designed and degrees of polymorphism has been examined with 20 rice accessions. Multiple alleles, ranging from 5 to 11, have been observed at all the microsatellite loci in 20 rice accessions. Alleles specific to two cultivated subspecies, indica and japonica, were found in some microsatellite loci. Heterozygosity values of all the microsatellite markers were significantly higher than those of RFLP markers, based upon a parallel comparison. Ten microsatellite loci have been genetically mapped to four rice chromosomes. The genomic distribution of microsatellites appears to be random in rice.     

Short tandem repeat polymorphic markers for the rat genome from marker-selected libraries

In an effort to generate a genome-wide set of high-quality polymorphic markers for the rat, we used the marker-selection method, which has already been proven useful for the development of markers, especially for the human genome. Small-insert (300–900 bp) rat genomic libraries were constructed with an estimated complexity of three genome equivalents and enriched for short tandem repeat sequences (STRs). The enriched libraries were found to contain 45% (CA)_n and 27% (GATA)_n, representing at least a 50-fold enrichment over unselected small insert genomic libraries. A subset of 2160 STR-containing clones, primarily of the (GATA)_n class of repeats, were sequenced. PCR primers flanking the repeats were synthesized from some of the sequences from the (CA)_n and (GATA)_n classes of STRs and tested for polymorphism in a panel of eight inbred rat strains. This strategy yielded 147 polymorphic markers, which mapped with high odds to all chromosomes by linkage in three F₂ populations. The integration of these STR markers with other rat genetic markers and mapping reagents will facilitate the mapping of disease genes in the rat and the identification of loci associated with complex mammalian phenotypes. Received: 6 May 1998 / Accepted: 6 August 1998     

DNA typing and genetic mapping with trimeric and tetrameric tandem repeats.

Tandemly reiterated sequences represent a rich source of highly polymorphic markers for genetic linkage, mapping, and personal identification. Human trimeric and tetrameric short tandem repeats (STRs) were studied for informativeness, frequency, distribution, and suitability for DNA typing and genetic mapping. The STRs were highly polymorphic and inherited stably. A STR-based multiplex PCR for personal identification is described. It features fluorescent detection of amplified products on sequencing gels, specific allele identification, simultaneous detection of independent loci, and internal size standards. Variation in allele frequencies were explored for four U.S. populations. The three STR loci (chromosomes 4, 11, and X) used in the fluorescent multiplex PCR have a combined average individualization potential of 1/500 individuals. STR loci appear common, being found every 300-500 kb on the X chromosome. The combined frequency of polymorphic trimeric and tetrameric STRs could be as high as 1 locus/20 kb. The markers should be useful for genetic mapping, as they are sequence based, and can be multiplexed with the PCR. A method enabling rapid localization of STRs and determination of their flanking DNA sequences was developed, thus simplifying the identification of polymorphic STR loci. The ease by which STRs may be identified, as well as their genetic and physical mapping utility, give them the properties of useful sequence tagged sites (STSs) for the human genome initiative.     

Decreased Rate of Evolution in Y Chromosome STR Loci of Increased Size of the Repeat Unit

Background

Polymorphic Y chromosome short tandem repeats (STRs) have been widely used in population genetic and evolutionary studies. Compared to di-, tri-, and tetranucleotide repeats, STRs with longer repeat units occur more rarely and are far less commonly used.

Principal Findings

In order to study the evolutionary dynamics of STRs according to repeat unit size, we analysed variation at 24 Y chromosome repeat loci: 1 tri-, 14 tetra-, 7 penta-, and 2 hexanucleotide loci. According to our results, penta- and hexanucleotide repeats have approximately two times lower repeat variance and diversity than tri- and tetranucleotide repeats, indicating that their mutation rate is about half of that of tri- and tetranucleotide repeats. Thus, STR markers with longer repeat units are more robust in distinguishing Y chromosome haplogroups and, in some cases, phylogenetic splits within established haplogroups.

Conclusions

Our findings suggest that Y chromosome STRs of increased repeat unit size have a lower rate of evolution, which has significant relevance in population genetic and evolutionary studies.     

The incidence of mini- and micro-satellite repetitive DNA in the canine genome

We have estimated the incidence of microand mini-satellites in the dog genome. A genomic phage library from canine liver, with an average insert size of 16 kb, was screened to detect potentially polymorphic microand mini-satellite sequences, which may be useful for the development of markers of inherited diseases, for fingerprinting, or for population genetics. Synthetic oligonucleotide probes were used to search for microsatellite sequences, and minisatellites were investigated with eight heterologous VNTR probes. (CA)_n.(GT)_n sequences were by far the most frequent, with a calculated average distance between consecutive loci of 42 kb. The average distance between loci of tri- or tetra-nucleotide repeats was about 330 kb. Mean inter-locus distances were 320 kb for (GGC)_n, 205 kb for (GTG)_n, 563 kb for (AGG)_n, 320 kb for (TCG)_n, 233 kb for (TTA)_n, 384 kb for (CCTA)_n, 368 kb for (CTGT)_n, 122 kb for (TTCC)_n, 565 kb for (TCTA)_n, and 229 kb for (TAGG)_n. Cross-hybridization with eight human minisatellite probes was found at average distances of 1400 kb; only one did not hybridize at all. We conclude that the di-, tri and tetra-nucleotide short tandem repeats, as well as some minisatellite sequences, are potentially useful as genetic markers, for mapping of the canine genome, and also for paternity testing and the analysis of population characteristics.     

Microsatellite markers for the Mexican spotted owl (Strix occidentalis lucida)

A genomic cosmid library was used to develop seven highly polymorphic microsatellite markers for the Mexican spotted owl (Strix occidentalis lucida). These are the first reported microsatellite markers derived from this species. The cloned and sequenced repeat motifs include a triplet repeat of (AAT)_n, two tetranucleotide repeats of (GATA)_n, a tetranucleotide repeat of (ATCC)_n, a compound repeat of (GA)_n(GATA)_n and the two pentanucleotide repeats (AGAAT)_n and (ATTTT)_n. The microsatellites described represent six presumably independent loci with the two pentanucleotide repeats having originated from a single cosmid. Primer pairs allow locus‐specific amplification of each marker from Mexican spotted owl genomic DNA.     

Individual Identification and Paternity Determination in Chimpanzees (Pan troglodytes) Using Human Short Tandem Repeat (STR) Markers

We studied 155 human short tandem repeat (STR) DNA markers in chimpanzees (Pan troglodytes) via the polymerase chain reaction (PCR). There is no difference in number of alleles per locus among STRs of different motif length (di-, tri-, or tetranucleotide repeats). We investigated 42 of the most informative STRs in greater detail using DNA isolated from a panel of 41 African-born, captive-housed chimpanzees. They reveal a wealth of genetic variability in chimpanzees, with an average of six alleles and 70.6% heterozygosity. The average paternity exclusion probability is 51.6%, and the best three STRs jointly provide >95% mean exclusion probability. Used in combination to define a multiple-locus genotype, the five most informative focal STRs can potentially uniquely identify every chimpanzee alive in the world. Although the subjects are of unknown geographical origin, homozygosity tests indicate little evidence for population subdivision. These markers represent the basis of a powerful battery of genetic tests, including individual identification, e.g., in poaching, paternity testing, or reconstruction of pedigrees among captive and wild chimpanzee breeding populations.     

Sequence variations of simple sequence repeats on chromosome-4 in two subspecies of the Asian cultivated rice

Computational screening of the chromosome-4 sequence of the rice cultivar Nipponbare (Oryza sativa L. japonica) revealed 1,844 tandem simple sequence repeats (SSRs) or microsatellites with SSR motifs 20 bp and repeated unit length of 1–6 base pairs. Thus SSRs occur once in every 18.8 kb, on the average, on the chromosome with one SSR per 23.8 kb and 16 kb on the short and long arms, respectively. No SSR was detected in the core region of the centromere. Poly(AT) _n repeats represented the most abundant and length polymorphic class of SSRs on the chromosome, but it did not occur in the exons. GC-rich trinucleotide repeats were most abundant in the coding regions, representing 71.69% of the SSRs identified in the exons. Two hundred and twenty four SSRs were associated with the repetitive DNA sequences, most of them were poly(AT) _n tracts. Sequence variations of SSRs between two cultivars, representing the two subspecies of the Asian cultivated rice indica and japonica, were identified, revealing that divergence and convergence of the two subspecies could be traced by the analysis of SSRs. These results provide a great opportunity for SSR-based marker development and comparative genome analysis of the two subspecies of the Asian cultivated rice.Electronic Supplementary Material Supplementary material is available in the online version of this article at .Communicated by Q. Zhang     

The Sunflower High-oleic Mutant Ol Carries Variable Tandem Repeats of FAD2-1, a Seed-specific Oleoyl-phosphatidyl Choline Desaturase

Ol, a chemically induced, incompletely dominant mutation, greatly increases oleic acid and is correlated with greatly reduced expression of a seed-specific oleoyl-phosphatidyl choline desaturase (FAD2-1) in developing seeds of sunflower (Helianthus annuus L.). FAD2-1 is duplicated in high-oleic (mutant) strains and cosegregates with Ol. Codominant RFLP markers have been developed for FAD2-1 and are diagnositic for the Ol mutation; however, the structure of the mutant FAD2-1 locus is unknown and polymorphic sequence-tagged-site (STS) DNA markers have not been developed for FAD2-1. The mutant was discovered to carry tandem repeats of FAD2-1 separated by a 2.67 kb intergenic region. The upstream repeat (FAD2-1U) carries a 1.69 kb intron in the 5′UTR, whereas the downstream repeat (FAD2-1D) is missing the first 1.54 kb of the 5′UTR and intron. Other than the deletion in FAD2-1D, no DNA polymorphisms were identified between wildtype and mutant FAD2-1 alleles among elite oilseed inbred lines. We developed dominant INDEL markers diagnostic for presence or absence of the Ol mutation (tandem FAD2-1 repeats) by targeting DNA sequences upstream of FAD2-1D, identified 49 SNPs and five INDELs (two haplotypes) in DNA sequences downstream of FAD2-1 in the wildtype and FAD2-1U in the mutant, identified polymorphic [AT]_n and [GT]_n repeats in the 3′UTR of FAD2-1, and developed codominant SSR and INDEL markers for FAD2-1. Novel FAD2-1 alleles found in exotic low-oleic genotypes could be introgressed into elite low-oleic genotypes to facilitate marker-assisted selection of Ol in mid- and high-oleic sunflower breeding programs.     

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     

A brief review of short tandem repeat mutation

Short tandem repeats （STRs） are short tandemly repeated DNA sequences that involve a repetitive unit of 1-6 bp. Because of their polymorphisms and high mutation rates, STRs are widely used in biological research. Strand-slippage replication is the predominant mutation mechanism of STRs, and the stepwise mutation model is regarded as the main mutation model. STR mutation rates can be influenced by many factors. Moreover, some trinucleotide repeats are associated with human neurodegenerative diseases. In order to deepen our knowledge of these diseases and broaden STR application, it is essential to understand the STR mutation process in detail. In this review, we focus on the current known information about STR mutation.     

Development of simple sequence repeat DNA markers and their integration into a barley linkage map

Simple sequence repeats (SSRs), or microsatellites, are a new class of PCR-based DNA markers for genetic mapping. The objectives of the present study were to develop SSR markers for barley and to integrate them into an existing barley linkage map. DNA sequences containing SSRs were isolated from a barley genomic library and from public databases. It is estimated that the barley genome contains one (GA)_n repeat every 330 kb and one (CA)_n repeat every 620 kb. A total of 45 SSRs were identified and mapped to seven barley chromosomes using doubled-haploid lines and/or wheat-barley addition-line assays. Segregation analysis for 39 of these SSRs identified 40 loci. These 40 markers were placed on a barley linkage map with respect to 160 restriction fragment length polymorphism (RFLP) and other markers. The results of this study demonstrate the value of SSRs as markers in genetic studies and breeding research in barley.     

PCR-amplified microsatellites as markers in plant genetics

In order to assess the feasibility of using microsatellites as markers in plant genetics, a survey of published DNA sequence data for presence, abundance and ubiquity in higher plants of all types of dinucleotide and trinucleotide repeats with a minimum number of 10 and 7 units, respectively, was conducted. This search revealed that such microsatellites are frequent and widely distributed; they were uncovered in 34 species, with a frequency of one every 50 kb. AT repeats were by far the most frequently observed class of dinucleotide microsatellites, whereas AC/TG repeats, which are common in animals, were observed only once. TAT repeats prevailed among trinucleotides. Polymerase chain reaction amplification of (AT)_n and (TAT)_n micro-satellites in soybean (Glycine max (L.) Merr.) revealed that they are highly polymorphic, as a consequence of length variation, somatically stable and inherited in a co-dominant Mendelian manner. The abundance and amount of information derived from such markers, together with the ease by which they can be identified, make them ideal markers for plant genetic linkage and physical mapping, population studies and varietal identification.     

The distribution and frequency of microsatellite loci in Drosophila melanogaster

We report the results of a comprehensive search of Drosophila melanogaster DNA sequences in GenBank for di-, tri-, and tetranucleotide repeats of more than four repeat units, and a DNA library screen for dinucleotide repeats. Dinucleotide repeats are more abundant (66%) than tri- (30%) or tetranucleotide (4%) repeats. We estimate that 1917 dinucleotide repeats with 10 or more repeat units are present in the euchromatic D. melanogaster genome and, on average, they occur once every 60 kb. Relative to many other animals, dinucleotide repeats in D. melanogaster are short. Tri- and tetranucleotide repeats have even fewer repeat units on average than dinucleotide repeats. Our WorldWide Web site (http://www.bio.cornell.edu/genetics/aquadro/aquadro.html) posts the complete list of 1298 microsatellites (≥ five repeat units) identified from the GenBank search. We also summarize assay conditions for 70 D. melanogaster microsatellites characterized in previous studies and an additional 56 newly characterized markers.     

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.     

Abundant (A)n·(T)n mononucleotide repeats in the pig genome: linkage mapping of the porcine APOB, FSA, ALOX12, PEPN and RLN loci

A computer analysis revealed that the mononucleotide repeat (A)_n-(T)_n is about five times as common as (CA)_n-(GT)_n repeats in the porcine genome, with frequency estimates of one every 7kb and 30kb, respectively. Seven mononucleotide repeats with n= 12–25 located close to coding sequences were analysed for polymorphism using polymerase chain reaction (PCR) amplification and polyacrylamide gel electrophoresis. All loci were variable with 3–6 alleles and heterozygosities of 0.26–0.69 based on investigation of 10 unrelated pigs (two wild boars and eight domestic sows). Repeat length correlated with degree of polymorphism. A comparison with (CA)_n-(GT)_n polymorphisms suggested that the number of repeat units rather than the total length of the repeat region is the common denominator that governs polymorphism at both mono- and dinucleotide repeat loci. (A)_n-(T)_n polymorphisms allowed linkage mapping of relaxin to chromosome 1, apolipoprotein B to chromosome 3, aminopepti-dase N to chromosome 7, arachidonate 12-lipoxygenase to chromosome 12, and follistatin to chromosome 16. The rich abundance of potentially informative (A)_n-(T)_n repeats will increase the chances of finding a PCR-based marker near any DNA sequence of interest.     

Microsatellites and associated repetitive elements in the sheep genome

To determine the frequency and clustering of a variety of simple di-and trinucleotide repeats, an Artiodactyl short interspersed element (SINE), an ovine satellite repeat, and a human Alu 1 repeat were used to screen a random selection of cosmids containing inserts of ovine genomic DNA. In total, 197 individual cosmids were digested with EcoRI and the fragments separated on 0.7% agarose gels. Southern blots of these gels were then sequentially probed with (AC)₇, (CT)₉, and (CAC)₆ oligonucleotides, and the repeats described above. The frequency at which (AC)₁, (CT)_n, and (CAC)_n repeats were found in the cosmids indicated that they occurred at average intervals of 65 kb, 367 kb, and 213 kb respectively within the ovine genome. The Artiodactyl SINE was the most common, occurring at an average interval of 20 kb. No human Alu 1 sequences were detected. There was a significant positive association between the (AC)_n and the Artiodactyl SINE. This association is quite strong as there was significant clustering of the two repeats both within cosmids and also within the EcoRI fragments of the digested genomic fragments. With the exception of the sheep satellite sequence, which occurs in tandem arrays, none of the other repeats showed significant clustering within the 41-kb (average size) cosmid inserts. The first 25 ovine microsatellites we characterized had an average polymorphic information content (PIC) of 0.65. The different microsatellite types, containing either perfect, imperfect, or compound repeats, had similar average PICs of 0.64, 0.65, and 0.66 respectively. There was a weak regression relationship (R²(adj)%=21.9) between the length of the longest uninterrupted dinucleotide repeat in the largest allele and the PIC of the microsatellite.     

Novel Hoogsteen-like Bases for Recognition of the C-G Base Pair by DNA Triplex Formation

Effective sequence-specific recognition of duplex DNA is possible by triplex formation with natural oligonucleotides via Hoogsteen H-bonding. However, triplex formation is in practice limited to pyrimidine oligonucleotides that bind duplex A-T or G-C base pair DNA sequences specifically at homopurine sites in the major groove as T·A-T and C⁺ ·G-C triplets. Here we report the successful modelling of novel unnatural nucleosides that recognize the C-G DNA base pair by Hoogsteen-like major groove interaction. These novel Hoogsteen nucleotides are examined within model A-type and B-type conformation triplex structures since the DNA triplex can be considered to incorporate A-type and/or B-type configurational properties. Using the same deoxyribose-phosphodiester and base-deoxyribose dihedral angle configuration, a triplet comprised of a C-G base pair and the novel Hoogsteen nucleotide, Y2, replaces the central T·A-T triplet in the triplex. The presence of any structural or energetic perturbations due to the central triplet in the energy-minimized triplex is assessed with respect to the unmodified energy minimized (T·A-T)₁₁ starting structures. Incorporation of this novel triplet into both A-type and B-type natural triplex structures provokes minimal change in the configuration of the central and adjacent triplets.     

Informativeness of human (dC-dA)n · (dG-dT)n polymorphisms

Abundant human interspersed repetitive DNA sequences of the form (dC-dA)_n · (dG-dT)_n have been shown to exhibit length polymorphisms. Examination of over 100 human (dC-dA)_n · (dG-dT)_n sequences revealed that the sequences differed from each other both in numbers of repeats and in repeat sequence type. Using a set of precise classification rules, the sequences were divided into three categories: perfect repeat sequences without interruptions in the runs of CA or GT dinucleotides (64% of total), imperfect repeat sequences with one or more interruptions in the run of repeats (25%), and compound repeat sequences with adjacent tandem simple repeats of a different sequence (11%). Informativeness of (dC-dA)_n · (dG-dT)_n markers in the perfect sequence category was found to increase with increasing average numbers of repeats. PIC values ranged from 0 at about 10 or fewer repeats to above 0.8 for sequences with about 24 or more repeats. (dC-dA)_n · (dG-dT)_n polymorphisms in the imperfect sequence category showed lower informativeness than expected on the basis of the total numbers of repeats. The longest run of uninterrupted CA or GT repeats was found to be the best predictor of informativeness of (dC-dA)_n · (dG-dT)_n polymorphisms regardless of the repeat sequence category.