Development of VNTR markers for two Fusarium graminearum clade species

Using a bioinformatics approach, we developed 10 variable number of tandem repeat (VNTR) markers for Fusarium graminearum and Fusarium asiaticum useful for population genetic studies. Repeat sequences in the genome sequence of F. graminearum were identified by a tandem repeat finding program. Length polymorphisms at 54 loci were examined for five strains each from the United States, Italy and China. From these 54 loci, 10 were selected based on polymorphisms detected across species, ease of scoring, and their dispersed location in the genome.     

Multiple loci variable number tandem repeat (VNTR) analysis (MLVA) of Mycobacterium leprae isolates amplified from European archaeological human remains with lepromatous leprosy

Molecular typing methods based on polymorphisms in single nucleotides and short tandem repeat motifs have been developed as epidemiological typing tools for Mycobacterium leprae. We have used a variable number tandem repeat method based on three variable loci to identify strain variation in archaeological cases of lepromatous leprosy. The panel of polymorphic loci used revealed unique profiles in five cases of leprosy, including those with identical SNP type and subtype. These were also different from profiles of three previously studied lepromatous skeletons. Whilst examination with SNP typing provides evidence for disease origins, dissemination and phylogeny, tandem repeat typing may be useful for studying cases from within a defined area or community where SNP types may be identical due to geographical constraints. We envisage the technique may be useful in studying contemporaneous burials such as those associated with leprosaria and will prove invaluable in authentication of ancient DNA analyses.     

A polymorphism detected in a variable number of tandem repeats (VNTR) of the seminal vesicle secretion (SVS) IV gene in inbred rats

The second intron of the rat SVS IV gene contains a tandem repeat region of 20-bp sequences. This region was amplified using the polymerase chain reaction to detect variations. Three alleles, characterized by amplified fragments of 750, 490, and 390 bp, respectively, were found in 24 strains examined. This variation segregated in F₁ and backcross progeny in an autosomal codominant manner. We tentatively designated this locusSvs-4. Analysis of linkages between theSvs-4 locus and other loci revealed that it was closely linked to theSvp-1 (<2.9%) and the a (10.0±6.7%) loci, which belong to rat linkage group IV. TheSvp-1 andSvs-4 loci, however, were differently distributed among the inbred rat strains.This work was supported by a Grant-in-Aid for Scientific Research from the Ministry of Education, Science and Culture of Japan.     

Structure and organization of the rDNA intergenic spacer region in <Emphasis Type="Italic">Pythium ultimum</Emphasis>

Nucleotide sequences of the rDNA intergenic spacer (IGS) region in Pythium ultimum were determined in 16 clones obtained from three isolates differing in production of sexual organs. Several sequences with different lengths were detected in each isolate, showing heterogeneity in the IGS region. In addition, several tandem repeat regions were detected in all the clones. The sequences, length, and number of each copy largely varied among repeat regions. Length heterogeneity arose from the complex combination of the number of copy within the repeat regions. Furthermore, the nucleotide sequence of each copy and the number of repetition varied not only between isolates but also between clones from an isolate. Based on the sequence similarity and the number of copies in repeat regions, specific patterns different between homothallic P. ultimum and the Pythium group HS (hyphal swellings) were recognized in a few regions. These results suggest that these two groups have slight genetic differences in the IGS region, although the differences in most of the repeat regions were not enough to identify each group.     

Measures of Variation at DNA Repeat Loci under a General Stepwise Mutation Model

Polymorphisms at tandem repeat loci are caused by mutations with allele sizes occasionally altered by more than one repeat unit in both forward and backward directions. Such mutational changes may occur with asymmetric probabilities. Therefore, a one-step symmetric stepwise mutation model may not be appropriate for studying the population dynamics at all repeat loci. In this work, we evaluated the expectation and variance of the within-population variance of the allele size distribution in a finite population, and the expected homozygosity at a locus by the coalescence approach under a general stepwise mutation model, where mutational transitions of allele sizes can be arbitrary, including being asymmetric. Under the special cases of symmetric one-step, two-step, and multi-step geometric distributions of mutations, our general results reduce to the corresponding results obtained by earlier investigators. The general results indicate that in a finite population, which has reached a steady state under the (general stepwise) mutation and drift balance, the within-population variance of allele sizes has a simple expectation (i.e., proportional toNν, the product of the mutation rate,ν, and effective population size,N). However, its stochastic variance is a quadratic function of this composite parameter,Nν. Furthermore, this second-order variance does not decay with the number of alleles sampled from a population. Application of this theory to data on allele size distributions in unrelated Caucasians from the CEPH pedigree (obtained from the Genome Data Base) shows that the relationship of the variance and mean of within-population variance of allele sizes at tandem repeat loci, grouped by their chromosomal assignment, has a trend compatible with the theory. However, there is an indication that the second-order variance is generally underestimated. One reason for this departure might be that the CEPH sample may not represent a single homogeneous population that reached equilibrium at all tandem repeat loci.     

Use of multiple‐locus variable number tandem repeat analysis and phage typing for subtyping ofSalmonella Enteritidis from sporadic human cases in the United States

Aims: To investigate the genetic diversity among S. Enteritidis isolates from different geographic regions to evaluate the relationship between phage types (PTs) and variable number tandem repeat analysis (VNTR) loci. Methods and Results: We performed multiple‐locus variable number tandem repeat analysis (MLVA) and phage typing on 245 S. Enteritidis isolates collected from sporadic human clinical cases in Michigan, Minnesota, New York, and Washington states between 2000 and 2007. Ninety‐four MLVA types and 22 different PTs were identified. Specific PTs were associated with a predominant allele for certain VNTR loci. Cluster analysis using a minimum‐spanning tree demonstrated two major clusters (I, II) and one minor cluster of isolates. PTs 8, 13a, 13 and 34 were significantly associated with MLVA cluster I. Phage types 1, 4, 6a, and 18 were significantly associated with MLVA cluster II. Conclusions: We found significant association between MLVA‐based clusters and PTs. Certain VNTR loci were associated with specific PTs and could serve as useful molecular markers for S. Enteritidis in epidemiological investigations. Significance and Impact of the Study: MLVA genotyping in combination with phage typing can be used for effective characterization of S. Enteritidis isolates. It can also be useful for tracing possible sources during investigations of sporadic and outbreak cases of S. Enteritidis.     

Vntr Allele Frequency Distributions under the Stepwise Mutation Model: A Computer Simulation Approach

Variable numbers of tandem repeats (VNTRs) are a class of highly informative and widely dispersed genetic markers. Despite their wide application in biological science, little is known about their mutational mechanisms or population dynamics. The objective of this work was to investigate four summary measures of VNTR allele frequency distributions: number of alleles, number of modes, range in allele size and heterozygosity, using computer simulations of the one-step stepwise mutation model (SMM). We estimated these measures and their probability distributions for a wide range of mutation rates and compared the simulation results with predictions from analytical formulations of the one-step SMM. The average heterozygosity from the simulations agreed with the analytical expectation under the SMM. The average number of alleles, however, was larger in the simulations than the analytical expectation of the SMM. We then compared our simulation expectations with actual data reported in the literature. We used the sample size and observed heterozygosity to determine the expected value, 5th and 95th percentiles for the other three summary measures, allelic size range, number of modes and number of alleles. The loci analyzed were classified into three groups based on the size of the repeat unit: microsatellites (1-2 base pair (bp) repeat unit), short tandem repeats [(STR) 3-5 bp repeat unit], and minisatellites (15-70 bp repeat unit). In general, STR loci were most similar to the simulation results under the SMM for the three summary measures (number of alleles, number of modes and range in allele size), followed by the microsatellite loci and then by the minisatellite loci, which showed deviations in the direction of the infinite allele model (IAM). Based on these differences, we hypothesize that these three classes of loci are subject to different mutational forces.     

Digital Genotyping of Macrosatellites and Multicopy Genes Reveals Novel Biological Functions Associated with Copy Number Variation of Large Tandem Repeats

Tandem repeats are common in eukaryotic genomes, but due to difficulties in assaying them remain poorly studied. Here, we demonstrate the utility of Nanostring technology as a targeted approach to perform accurate measurement of tandem repeats even at extremely high copy number, and apply this technology to genotype 165 HapMap samples from three different populations and five species of non-human primates. We observed extreme variability in copy number of tandemly repeated genes, with many loci showing 5–10 fold variation in copy number among humans. Many of these loci show hallmarks of genome assembly errors, and the true copy number of many large tandem repeats is significantly under-represented even in the high quality ‘finished’ human reference assembly. Importantly, we demonstrate that most large tandem repeat variations are not tagged by nearby SNPs, and are therefore essentially invisible to SNP-based GWAS approaches. Using association analysis we identify many cis correlations of large tandem repeat variants with nearby gene expression and DNA methylation levels, indicating that variations of tandem repeat length are associated with functional effects on the local genomic environment. This includes an example where expansion of a macrosatellite repeat is associated with increased DNA methylation and suppression of nearby gene expression, suggesting a mechanism termed “repeat induced gene silencing”, which has previously been observed only in transgenic organisms. We also observed multiple signatures consistent with altered selective pressures at tandemly repeated loci, suggesting important biological functions. Our studies show that tandemly repeated loci represent a highly variable fraction of the genome that have been systematically ignored by most previous studies, copy number variation of which can exert functionally significant effects. We suggest that future studies of tandem repeat loci will lead to many novel insights into their role in modulating both genomic and phenotypic diversity.     

Simultaneous estimation of all the parameters of a stepwise mutation model.

Minisatellite and microsatellite are short tandemly repetitive sequences dispersed in eukaryotic genomes, many of which are highly polymorphic due to copy number variation of the repeats. Because mutation changes copy numbers of the repeat sequences in a generalized stepwise fashion, stepwise mutation models are widely used for studying the dynamics of these loci. We propose a minimum chi-square (MCS) method for simultaneous estimation of all the parameters in a stepwise mutation model and the ancestral allelic type of a sample. The MCS estimator requires knowing the mean number of alleles of a certain size in a sample, which can be estimated using Monte Carlo samples generated by a coalescent algorithm. The method is applied to samples of seven (CA)n repeat loci from eight human populations and one chimpanzee population. The estimated values of parameters suggest that there is a general tendency for microsatellite alleles to expand in size, because (1) each mutation has a slight tendency to cause size increase and (2) the mean size increase is larger than the mean size decrease for a mutation. Our estimates also suggest that most of these CA-repeat loci evolve according to multistep mutation models rather than single-step mutation models. We also introduced several quantities for measuring the quality of the estimation of ancestral allelic type, and it appears that the majority of the estimated ancestral allelic types are reasonably accurate. Implications of our analysis and potential extensions of the method are discussed.SINCE the discovery that a large number of loci with tandemly repeated sequences in human and many eukaryote species are highly polymorphic because of copy number variation of the repeats in different individuals (Jeffreys 1985; Litt and Luty 1989; Weber and May 1989), allele size data from such loci are rapidly becoming the dominant source of genetic markers for genome mapping, forensic testing, and population studies. Loci with repeat sequences longer than 5 bp are generally referred to as minisatellite or variable number tandem repeat loci, and those with repeat sequences between 2 to 5 bp are referred to as microsatellite or short tandem repeat loci (Tautz 1993). Because mutations change the copy number of such loci in a stepwise fashion, rapid accumulation of population samples from minisatellite and microsatellite loci has resurrected the interest of the stepwise mutation model (SMM), which was popular in the 1970s.     

DNA fingerprinting in three species of neotropical primates

DNA fingerprinting allows the simultaneous detection of a large number of hypervariable loci consisting of highly polymorphic tandem repeat units that are extensively dispersed in the genome. With the 33.6 human minisatellite probe, hypervariable fragments were detected, for the first time, in the genome of three different species of wild-caught neotropical primates: Aotus infulatus, Aotus azarae, and Cebus apella. As in the human, these species were highly polymorphic, showing distinctive, individual-specific patterns. Estimates of relatedness within each group were calculated from interspecific comparisons based on the number of shared fragments between individuals. This work shows that the 33.6 human minisatellite probe can be very useful for increasing our understanding of population dynamics and behavior of these species in their natural habitat. © 1996 Wiley-Liss, Inc.     

沙门氏菌CRISPR位点的结构特征比较

成簇规律间隔的短回文重复序列(Clustered regularly interspaced short palindromic repeats,CRISPR),是存在于多数细菌和古菌中的遗传结构,能够有效防御外源DNA的入侵(质粒、噬菌体等),进而防御外源基因的水平转移。【目的】本研究以沙门氏菌属中常见的鸡伤寒沙门氏菌(Salmonella gallinarum)、鼠伤寒沙门氏菌(Salmonella typhimurium)、猪霍乱沙门氏菌(Salmonella choleraesuis)以及肠炎沙门氏菌(salmonella enteritidis)等30个菌株为研究对象。探索CRISPR位点在不同沙门氏菌种中的结构差异。【方法】通过生物信息学的方法比较间隔序列与插入序列的同源性以及CRISPR位点与质粒数量关系。【结果】30株沙门氏菌中均存在CRISPR结构,包括CRISPR位点61个以及可疑位点12个。重复序列和cas1基因均不能作为这4类细菌的分类依据。【结论】虽然我们发现CRISPR位点数量与间隔区数量和质粒数量之间均不存在统计学关系,但间隔序列整合子、耐药基因等移动遗传原件具有一定的同源性,说明沙门氏菌在进化过程中不断受外源基因的侵袭。     

Development of SSR markers from an ectomycorrhizal fungus, <Emphasis Type="Italic">Suillus bovinus</Emphasis>

Nine simple sequence repeat (SSR) loci were isolated from an ectomycorrhizal fungus Suillus bovinus by dual-suppression PCR. Three of the SSR loci isolated were polymorphic. The number of alleles per locus was between two and seven, and expected heterozygosities ranged from 0.087 to 0.740. One of these was confirmed to be species specific and codominant, suggesting applicability for the analysis of belowground population structure and gene flow of S. bovinus.     

Intrinsic polymorphism of variable number tandem repeat loci in the human genome.

In the human genome, short tandem repetitive (STR) DNA sequences often show restriction fragment length polymorphisms (RFLPs) due to variation in the number of copies of the repeat unit. For a subset of these sequences known as minisatellites or variable number tandem repeat loci (VNTR), it has been proposed that a homologous "core" sequence of 10-12 nucleotides is involved in the mechanism(s) generating the polymorphism. In our present study we have prepared oligonucleotide probes complementary to one or two repeat units of several VNTR loci. Under stringent hybridization and wash conditions these probes hybridize locus specifically thus allowing the evaluation of the intrinsic polymorphism of individual loci. Our results indicate that not all of the loci having STR DNA sequences are polymorphic despite the fact that they share the "core" sequence. This suggests that more than the DNA sequence of the locus is involved in the mechanism(s) generating the polymorphism.     

Development and characterization of 248 novel microsatellite markers in turbot (Scophthalmus maximus).

The turbot is a flatfish species of great relevance to marine aquaculture in Europe. Only a limited number of microsatellites have been isolated to date in this species. To increase the number of potentially useful mapping markers, we screened simple sequence repeat (SSR)--enriched genomic libraries obtained from several di-, tri-, and tetranucleotide tandem repeat motifs. A total of 248 new polymorphic microsatellites were successfully optimized. The efficiency of the protocol applied (6.4%) was higher than that in other studies of fish that used the same method. Dinucleotide and perfect microsatellites were predominant in this species; the (AC)n motif was the most frequent class of repeat. Polymorphism and structural properties at these loci, together with 30 variable loci previously reported in turbot, were evaluated in 6 wild individuals. The number of alleles per locus ranged from 2 to 10, with an average of 4.046. The microsatellite markers characterized in this study will contribute to the development of the turbot genetic map, which can be used for quantitative trait locus (QTL) identification, marker-assisted selection programs, and other applications to improve its culture.     

Analysis of genetic stability at SSR loci during somatic embryogenesis in maritime pine (Pinus pinaster)

Somatic embryogenesis (SE) is a propagation tool of particular interest for accelerating the deployment of new high-performance planting stock in multivarietal forestry. However, genetic conformity in in vitro propagated plants should be assessed as early as possible, especially in long-living trees such as conifers. The main objective of this work was to study such conformity based on genetic stability at simple sequence repeat (SSR) loci during somatic embryogenesis in maritime pine (Pinus pinaster Ait.). Embryogenic cell lines (ECLs) subjected to tissue proliferation during 6, 14 or 22 months, as well as emblings regenerated from several ECLs, were analyzed. Genetic variation at seven SSR loci was detected in ECLs under proliferation conditions for all time points, and in 5 out of 52 emblings recovered from somatic embryos. Three of these five emblings showed an abnormal phenotype consisting mainly of plagiotropism and loss of apical dominance. Despite the variation found in somatic embryogenesis-derived plant material, no correlation was established between genetic stability at the analyzed loci and abnormal embling phenotype, present in 64% of the emblings. The use of microsatellites in this work was efficient for monitoring mutation events during the somatic embryogenesis in P. pinaster. These molecular markers should be useful in the implementation of new breeding and deployment strategies for improved trees using SE.     

Variable Tandem Repeat VcA of Vibrio cholerae

Computer analysis revealed seven potential variable-number tandem-repeat (VNTR) loci in the Vibrio cholerae genome. Specific primers were designed to amplify locus VcA located on chromosome 2 and containing a TGCTGT repeat. The locus was found in all tested strains from aV. cholerae strain collection, the repeat number varying from 3 to 23. In total, 14 VcA alleles were observed. The VcA locus was proposed as a marker for the molecular typing of V. cholerae strains.     

Analysis of 31 STR loci in the genetic isolate of Carloforte (Sardinia, Italy)

The genotypes of 31 autosomal short tandem repeat loci in the population of Carloforte were analyzed, these representing a linguistic and genetic isolate located on the island of Sardinia (Italy). The markers span the entire length of chromosomes 19, 20, 21 and 22. Allele frequencies and statistical parameters were presented for all loci. Observed heterozygosity ranged from 0.279 to 0.884, and polymorphism information content from 0.552 to 0.886. All but two loci showed Hardy-Weinberg equilibrium after Bonferroni correction. The 31 short tandem repeat loci examined in the present work provide additional data on the genetic structure of the Carloforte population.     

Variable numbers of tandem repeat loci in genetically homogeneous Haemophilus influenzae strains alter during persistent colonisation of cystic fibrosis patients

Serial sputum isolates of Haemophilus influenzae (n = 69) were obtained from eight patients suffering from cystic fibrosis. For two of these patients all strains were analysed for polymorphism in the major outer membrane protein profile. For all patients the strains were genetically characterised by random amplification of polymorphic DNA analysis. All strains were included in a survey for polymorphism in regions containing moieties of repetitive DNA as well. A single locus containing trinucleotide repeat units, three loci harbouring tetranucleotides, one region comprising pentanucleotide units and two hexanucleotide repeat unit-containing loci were analysed for repeat number variability. Most of the regions were previously shown to be directly adjacent to or even within virulence genes. All regions behaved as genuine variable number of tandem repeat loci in the sense that genetic polymorphism based on the presence of varying numbers of repeat units could be demonstrated among different strains. Interestingly, several of the repeats showed variation in the absence of the variability as assessed by major outer membrane protein or random amplification of polymorphic DNA analysis. These observations indicate that the repeat loci may vary independently from major chromosomal polymorphism. Consequently, H. influenzae appears to modify its virulence gene regions of the chromosome during persistent colonisation of the lung in cystic fibrosis patients.