Microsatellites in different Potyvirus genomes: survey and analysis

Simple sequence repeats (SSRs) have been extensively used for various genetic and evolutionary studies in eukaryotic and prokaryotic organisms, while few relevant researches have been made in viruses. The Potyvirus is a fine system to study roles and evolution of SSRs in viruses. The densities, relative abundances, compositions and evolutionary inferences of SSRs in 45 different Potyvirus genomes have been analyzed in this study. Results showed that the densities and relative abundances of SSRs are similar in all those Potyvirus genomes. The number of SSRs decreases with an increase in the length of repeat unit. Dinucleotide repeats are the most abundant and followed by trinucleotide repeats, and the numbers of tetra-, penta- and hexanucleotide repeats are very small. Repeats of AC/CA, AG/GA and AAG/GAA predominate, whereas repeats of CG/GC, ATA and CAC are rare. The genome sizes of the Potyvirus species have little influence on the total number and relative abundance of SSRs. Our study suggested that the variety of SSRs may be related to the genome diversity of Potyvirus. Maybe Potyvirus and HIV genomes have the similar evolution mode and parallel evolution level.     

Microsatellite markers spanning the apple (Malus x domestica Borkh.) genome

A new set of 148 apple microsatellite markers has been developed and mapped on the apple reference linkage map Fiesta x Discovery. One-hundred and seventeen markers were developed from genomic libraries enriched with the repeats GA, GT, AAG, AAC and ATC; 31 were developed from EST sequences. Markers derived from sequences containing dinucleotide repeats were generally more polymorphic than sequences containing trinucleotide repeats. Additional eight SSRs from published apple, pear, and Sorbus torminalis SSRs, whose position on the apple genome was unknown, have also been mapped. The transferability of SSRs across Maloideae species resulted in being efficient with 41% of the markers successfully transferred. For all 156 SSRs, the primer sequences, repeat type, map position, and quality of the amplification products are reported. Also presented are allele sizes, ranges, and number of SSRs found in a set of nine cultivars. All this information and those of the previous CH-SSR series can be searched at the apple SSR database () to which updates and comments can be added. A large number of apple ESTs containing SSR repeats are available and should be used for the development of new apple SSRs. The apple SSR database is also meant to become an international platform for coordinating this effort. The increased coverage of the apple genome with SSRs allowed the selection of a set of 86 reliable, highly polymorphic, and overall the apple genome well-scattered SSRs. These SSRs cover about 85% of the genome with an average distance of one marker per 15 cM.E. Silfverberg-Dilworth and C. L. Matasci contributed equally to this work.     

Comparison of simple sequence repeats in 19 Archaea

All organisms that have been studied until now have been found to have differential distribution of simple sequence repeats (SSRs), with more SSRs in intergenic than in coding sequences. SSR distribution was investigated in Archaea genomes where complete chromosome sequences of 19 Archaea were analyzed with the program SPUTNIK to find di- to penta-nucleotide repeats. The number of repeats was determined for the complete chromosome sequences and for the coding and non-coding sequences. Different from what has been found for other groups of organisms, there is an abundance of SSRs in coding regions of the genome of some Archaea. Dinucleotide repeats were rare and CG repeats were found in only two Archaea. In general, trinucleotide repeats are the most abundant SSR motifs; however, pentanucleotide repeats are abundant in some Archaea. Some of the tetranucleotide and pentanucleotide repeat motifs are organism specific. In general, repeats are short and CG-rich repeats are present in Archaea having a CG-rich genome. Among the 19 Archaea, SSR density was not correlated with genome size or with optimum growth temperature. Pentanucleotide density had an inverse correlation with the CG content of the genome.     

Evolution Analysis of Simple Sequence Repeats in Plant Genome

Simple sequence repeats (SSRs) are widespread units on genome sequences, and play many important roles in plants. In order to reveal the evolution of plant genomes, we investigated the evolutionary regularities of SSRs during the evolution of plant species and the plant kingdom by analysis of twelve sequenced plant genome sequences. First, in the twelve studied plant genomes, the main SSRs were those which contain repeats of 1–3 nucleotides combination. Second, in mononucleotide SSRs, the A/T percentage gradually increased along with the evolution of plants (except for P. patens). With the increase of SSRs repeat number the percentage of A/T in C. reinhardtii had no significant change, while the percentage of A/T in terrestrial plants species gradually declined. Third, in dinucleotide SSRs, the percentage of AT/TA increased along with the evolution of plant kingdom and the repeat number increased in terrestrial plants species. This trend was more obvious in dicotyledon than monocotyledon. The percentage of CG/GC showed the opposite pattern to the AT/TA. Forth, in trinucleotide SSRs, the percentages of combinations including two or three A/T were in a rising trend along with the evolution of plant kingdom; meanwhile with the increase of SSRs repeat number in plants species, different species chose different combinations as dominant SSRs. SSRs in C. reinhardtii, P. patens, Z. mays and A. thaliana showed their specific patterns related to evolutionary position or specific changes of genome sequences. The results showed that, SSRs not only had the general pattern in the evolution of plant kingdom, but also were associated with the evolution of the specific genome sequence. The study of the evolutionary regularities of SSRs provided new insights for the analysis of the plant genome evolution.     

Analysis of distribution and significance of simple sequence repeats in enteric bacteria Shigella dysenteriae SD197

We have explored the possible role of SSR density in genome to generate biological information. In our study, we have checked the SSR (simple sequence repeats) status in virulent and non virulent genes of enteric bacteria to see whether the SSRs distribution contributes to virulence. The genome, plasmid and virulent genes sequences in fasta format were downloaded from NCBI GenBank and VFDB. The sequences were subjected to SSR analysis using software tool ssr.exe. The resulting data was pasted in excel sheet and further analyzed for percentage of each type of SSR. Higher nucleotide repeats have been observed in our study. Overall high density of SSRs can enhance antigenic variance of the pathogen population in a strategy that counteracts the host immune response. Frequency of A and T repeats is higher in the chromosome, plasmid and the virulence genes. However, in dinucleotide repeats the frequencies of GC/CG repeats are higher in genome, whereas plasmid has more of AT/TA repeats. Genome has trinucleotide repeats having predominantly G and C whereas plasmid has trinucleotide repeats having predominantly A and T. The repeat number obtained and percentage of repeats is higher in virulence genes as compared to other gene families. Due to the presence of this large number of SSRs, the organism has an enormous potential for generating this genomic and phenotypic diversity.     

有尾噬菌体目中微卫星和复合型微卫星的发生及分析

简单重复序列亦称微卫星,被成功应用于许多真核生物、原核生物和病毒的基因组和进化研究,但是噬菌体中的微卫星目前很少被研究。因此对60条尾病毒目基因组中的微卫星和和复合型微卫星(由两个或两个以上直接相邻的微卫星组成)做综合性分析,在这60个基因组中总共观察到11 874个微卫星和449个复合型微卫星。相关性分析表明微卫星个数与基因组大小成正线性相关(ρ=0.899, P<0.01)。参考序列中的微卫星个数少于对应的随机序列中微卫星个数,这种反常现象主要是因为参考序列含有较少的单核苷酸和二核苷酸重复。A/T和AT/TA重复是单核苷酸和二核苷酸重复中最主要的类型,因此单核苷酸重复中的GC含量明显低于相应的序列中的GC含量;相比之下,微卫星中的二核苷酸和三核苷酸重复的GC含量与对应的参考序列的GC含量无明显区别。尾病毒目基因组中的这些结果与其它生物体基因组存在一定的差别。有助于了解尾病毒目中微卫星的分布、进化和生物学功能。     

Physical organisation of simple sequence repeats (SSRs) in Triticeae: structural, functional and evolutionary implications

A significant fraction of the nuclear DNA of all eukaryotes is occupied by simple sequence repeats (SSRs) or microsatellites. This type of sequence has sparked great interest as a means of studying genetic variation, linkage mapping, gene tagging and evolution. Although SSRs at different positions in a gene help determine the regulation of expression and the function of the protein produced, little attention has been paid to the chromosomal organisation and distribution of these sequences, even in model species. This review discusses the main achievements in the characterisation of long-range SSR organisation in the chromosomes of Triticum aestivum L., Secale cereale L., and Hordeum vulgare L. (all members of Triticeae). We have detected SSRs using an improved FISH technique based on the random primer labelling of synthetic oligonucleotides (15-24 bases) in multi-colour experiments. Detailed information on the presence and distribution of AC, AG and all the possible classes of trinucleotide repeats has been acquired. These data have revealed the motif-dependent and non-random chromosome distributions of SSRs in the different genomes, and allowed the correlation of particular SSRs with chromosome areas characterised by specific features (e.g., heterochromatin, euchromatin and centromeres) in all three species. The present review provides a detailed comparative study of the distribution of these SSRs in each of the seven chromosomes of the genomes A, B and D of wheat, H of barley and R of rye. The importance of SSRs in plant breeding and their possible role in chromosome structure, function and evolution is discussed.     

Mapping and analysis of simple sequence repeats in the Arabidopsis thaliana genome

Simple sequence repeats (SSRs) are becoming standard DNA markers for plant genome analysis and are being used as markers in marker assisted breeding. And hence because of its great significance we have initiated this study to analyze complete genome of Arabidopsis thaliana for the prevalence of mono-, di-, tri-, tetra-, penta- and hexa- mer repeats in the coding and non-coding regions of the chromosome and to map their exact position on the sequence. We have developed a program that can search a repeat of any length, its exact position on the chromosome and also its frequency of occurrence in the genome. Analysis of the results reveal that maximum number of repeats were found in chromosome 1 followed by chromosome 2 and 4 whereas, chromosome 3 and 5 contain relatively less number of these repeats. Among the SSRs, hexamers and dimers were more predominant in the chromosomes. Overall data showed that Chromosome 5 has minimum number of repeats. The abundance or rarity of various simple repeats in different chromosomes is not explained by nucleotide composition of sequence or potential repeated motifs to form alternative DNA structures. This suggests that in addition to nucleotide composition of repeat motifs, characteristic DNA replication / repair / recombination machinery might play an important role in genesis of repeats. The positional information is given at www.geocities.com/amubioinfo/ARD. This positional information can help Arabidopsis researchers to identify new polymorphisms in chromosomal regions of interest based on the SSRs that map in the area.     

In silico analysis of SSRs in mitochondrial genomes of plants

Simple sequence repeats (SSRs) or microsatellites constitute a countable portion of genomes. However, the significance of SSRs in organelle genomes has not been completely understood. The availability of organelle genome sequences allows us to understand the organization of SSRs in their genic and intergenic regions. In the current study we surveyed the patterns of SSRs in mitochondrial genomes of different taxa of plants. A total of 16 mitochondrial genomes, from algae to angiosperms, have been considered to analyze the pattern of simple sequence repeats present in them. Based on study, the mononucleotide repeats of A/T were found to be more prevalent in mitochondrial genomes over other repeat types. The dinucleotides repeats, TA/AT, were the second most numerous, whereas tri-, tetra-, and pentanucleotide repeats were in less number and present in intronic or intergenic portions only. Mononucleotide repeats prevailed in protein-coding exonic portions of all organisms. These results indicates that microsatellite pattern in mitochondrial genomes is different from nuclear genomes and also focuses on organization and diversity at SSR locuses in mitochondrial genomes. This is the novel report of microsatellite polymorphism in plant mitochondrion on whole genome level.     

蜜蜂EST中的微卫星分析

为加速分子标记在蜜蜂遗传、进化与行为等方面的利用,分析了简单重复序列(Simple Sequence Repeats,SSRs)在蜜蜂EST中的分布频率与密度。所分析的蜜蜂EST数据集包含15869条序列,总长为7．9Mb。结果显示,蜜蜂ESTs中SSRs的频率为1／0．52kb,其中6碱基重复基序占总SSRs的45．0％,是最丰富的重复单元,而2、1、3、4与5碱基重复基序分别占总SSRs的17．9％、14．1％、11．6％、9．2％和2．2％。同时,在各种SSRs重复单元中,富含A碱基的重复单元占据优势地位,如：A、AT、AG、AC、AAT、AAG、AAC、AAAT、AAAG、AAAAG、AAAAT、AATAT、AAAAAG和AAAAAT重复基序,而富含G碱基的重复单元在基因编码区中含量较低。进一步分析显示：蜜蜂SSRs在冗余与非冗余EST数据集中的分布频率与密度相似,仅存在极小的偏差,表明可从现有的部分ESTs数据中方便地获取有效的微卫星标记。     

Genome-Wide Analysis of Microsatellite Markers Based on Sequenced Database in Chinese Spring Wheat (Triticum aestivum L.)

Microsatellites or simple sequence repeats (SSRs) are distributed across both prokaryotic and eukaryotic genomes and have been widely used for genetic studies and molecular marker-assisted breeding in crops. Though an ordered draft sequence of hexaploid bread wheat have been announced, the researches about systemic analysis of SSRs for wheat still have not been reported so far. In the present study, we identified 364,347 SSRs from among 10,603,760 sequences of the Chinese spring wheat (CSW) genome, which were present at a density of 36.68 SSR/Mb. In total, we detected 488 types of motifs ranging from di- to hexanucleotides, among which dinucleotide repeats dominated, accounting for approximately 42.52% of the genome. The density of tri- to hexanucleotide repeats was 24.97%, 4.62%, 3.25% and 24.65%, respectively. AG/CT, AAG/CTT, AGAT/ATCT, AAAAG/CTTTT and AAAATT/AATTTT were the most frequent repeats among di- to hexanucleotide repeats. Among the 21 chromosomes of CSW, the density of repeats was highest on chromosome 2D and lowest on chromosome 3A. The proportions of di-, tri-, tetra-, penta- and hexanucleotide repeats on each chromosome, and even on the whole genome, were almost identical. In addition, 295,267 SSR markers were successfully developed from the 21 chromosomes of CSW, which cover the entire genome at a density of 29.73 per Mb. All of the SSR markers were validated by reverse electronic-Polymerase Chain Reaction (re-PCR); 70,564 (23.9%) were found to be monomorphic and 224,703 (76.1%) were found to be polymorphic. A total of 45 monomorphic markers were selected randomly for validation purposes; 24 (53.3%) amplified one locus, 8 (17.8%) amplified multiple identical loci, and 13 (28.9%) did not amplify any fragments from the genomic DNA of CSW. Then a dendrogram was generated based on the 24 monomorphic SSR markers among 20 wheat cultivars and three species of its diploid ancestors showing that monomorphic SSR markers represented a promising source to increase the number of genetic markers available for the wheat genome. The results of this study will be useful for investigating the genetic diversity and evolution among wheat and related species. At the same time, the results will facilitate comparative genomic studies and marker-assisted breeding (MAS) in plants.     

Exploiting EST databases for the development and characterization of gene-derived SSR-markers in barley (<Emphasis Type="Italic">Hordeum vulgare</Emphasis> L.)

A software tool was developed for the identification of simple sequence repeats (SSRs) in a barley ( Hordeum vulgare L.) EST (expressed sequence tag) database comprising 24,595 sequences. In total, 1,856 SSR-containing sequences were identified. Trimeric SSR repeat motifs appeared to be the most abundant type. A subset of 311 primer pairs flanking SSR loci have been used for screening polymorphisms among six barley cultivars, being parents of three mapping populations. As a result, 76 EST-derived SSR-markers were integrated into a barley genetic consensus map. A correlation between polymorphism and the number of repeats was observed for SSRs built of dimeric up to tetrameric units. 3'-ESTs yielded a higher portion of polymorphic SSRs (64%) than 5'-ESTs did. The estimated PIC (polymorphic information content) value was 0.45 +/- 0.03. Approximately 80% of the SSR-markers amplified DNA fragments in Hordeum bulbosum, followed by rye, wheat (both about 60%) and rice (40%). A subset of 38 EST-derived SSR-markers comprising 114 alleles were used to investigate genetic diversity among 54 barley cultivars. In accordance with a previous, RFLP-based, study, spring and winter cultivars, as well as two- and six-rowed barleys, formed separate clades upon PCoA analysis. The results show that: (1) with the software tool developed, EST databases can be efficiently exploited for the development of cDNA-SSRs, (2) EST-derived SSRs are significantly less polymorphic than those derived from genomic regions, (3) a considerable portion of the developed SSRs can be transferred to related species, and (4) compared to RFLP-markers, cDNA-SSRs yield similar patterns of genetic diversity.     

ISSR分子标记及其在植物遗传学研究中的应用

ISSR分子标记是在SSR标记基础上发展起来的一种新技术,其基本原理是在SSR的5′或3′端加锚1~4个嘌呤或嘧啶碱基,然后以此为引物,对两侧具有反向排列SSR的一段基因组DNA序列进行扩增。重复序列和锚定碱基是随机选择的,扩增产物经聚丙烯酰胺或琼脂糖凝胶电泳分离后,每个引物可以产生比RAPD方法更多的扩增片段,因此,ISSR标记是一种快速、可靠、可以提供有关基因组丰富信息的DNA指纹技术。ISSR标记呈孟德尔式遗传,在多数物种中是显性的,目前已广泛用于植物品种鉴定、遗传作图、基因定位、遗传多样性、进化及分子生态学研究中。 ISSR Markers and Their Applications in Plant Genetics WANG Jian-bo Key Laboratory of MOE for Plant Developmental Biology,Wuhan University,Wuhan 430072,China Abstract:Recently,inter-simple sequence repeat (ISSR) markers have emerged as an alternative system with reliability and advantages of microsatellites (SSR).The technique involves amplification of genomic segments flanked by inversely oriented and closely spaced microsatellite sequences by a single primer or a pair of primers based on SSRs anchored 5′ or 3′ with 1-4 purine or pyramidine residues.The sequences of repeats and anchor nucleates are arbitrarily selected.Coupled with the separation of amplification products on a polyacrylamide or agarose gels,ISSR amplification can reveal a much larger number of fragments per primer than RAPD.It is concluded that ISSR technique provides a quick,reliable and highly informative system for DNA fingerprinting.ISSR markers are inherited in Mendelin mode and segregated as dominant markers.This technique has been widely used in the studies of cultivar identification,genetic mapping,gene tagging,genetic diversity,evolution and molecular ecology. Key words：molecular markers; ISSR; plant;applications     

核盘菌和灰葡萄孢基因组中的简单重复序列分析

利用公共的真菌基因组数据库资源, 对核盘菌（Sclerotinia sclerotiorum）和灰葡萄孢（Botrytis cinerea）基因组中SSRs的结构类型、分布、丰度及最长序列等进行了系统分析, 并与已经研究过的禾谷镰孢菌（Fusarium graminearum）, 稻瘟病菌（Magnaporthe grisea）和黑粉菌（Ustilago maydis）等几种植物病原真菌基因组中的SSRs进行了比较。结果表明: 核盘菌和灰葡萄孢基因组中的SSRs非常丰富, 分别为6 539和8 627个, 并且在结构类型和分布规律上具有一定的相似性; 与其他几种病原真菌相比, 核盘菌和灰葡萄孢基因组中长重复的四、五、六核苷酸基序更为丰富, 从而使得这两种真菌具有更高的变异性。同时, 我们发现真菌基因组中SSRs的丰度与基因组的大小及GC含量没有必然的关系。文章对核盘菌和灰葡萄孢基因组中SSRs的丰度、出现频率及最长基序的分析为快速、便捷地设计多态性丰富的SSRs引物提供了有益的信息。     

MfSAT: Detect simple sequence repeats in viral genomes

Simple sequence repeats (SSRs) are ubiquitous short tandem repeats, which are associated with various regulatory mechanisms and have been found in viral genomes. Herein, we develop MfSAT (Multi-functional SSRs Analytical Tool), a new powerful tool which can fast identify SSRs in multiple short viral genomes and then automatically calculate the numbers and proportions of various SSR types (mono-, di-, tri-, tetra-, penta- and hexanucleotide repeats). Furthermore, it also can detect codon repeats and report the corresponding amino acid.     

Juxtaposed short sequence repeat types and haplotypes near exon 3 of the insulin receptor locus among Mexican Americans.

The insulin receptor has been sequenced on numerous occasions and reports suggest several potential polymorphisms, as do a number of reports of single base changes. Examining these reports identifies five potential polymorphisms at or near exon 3. Three of these--codon 233 (CTG to CCG), codon 234 (GAC to GAT), and codon 276 (CAG to CAA)--predict restriction site differences. Just 5' of exon 3, the sequence suggests the presence of two short sequence repeats (SSRs), one with ATTT repeats and one with TC dinucleotide repeats. Amplification of exon 3 using the polymerase chain reaction followed by appropriate restriction digestion demonstrated no variation in a sample of 50 Mexican Americans. The codon 276 results were surprising given several reports showing the putative differences. An additional 91 mixed samples were examined and no variation was detected, suggesting that the reported differences likely resulted from sequencing artifacts. Amplification of a smaller fragment demonstrated 10 phenotypes and 7 alleles for the SSR region. Digestion with MnlI permitted scoring each motif separately and when coupled with the uncut results permits unequivocal classification of haplotypes without familial data. These juxtaposed SSRs should be useful for linkage analysis and investigations of gene structure and evolution.     

Exploiting EST databases for the mining and characterization of short sequence repeat (SSR) markers in Catharanthus roseus L

Periwinkle (Catharanthus roseus L.) (Family: Apocyanaceae) is a ornamental plants with great medicinal properties. Although it is represented by seven species, little work has been carried out on its genetic characterization due to non-availability of reliable molecular markers. Simple sequence repeats (SSRs) have been widely applied as molecular markers in genetic studies. With the rapid increase in the deposition of nucleotide sequences in the public databases and advent of bioinformatics tools, it has become a cost effective and fast approach to scan for microsatellite repeats and exploit the possibility of converting it into potential genetic markers. Expressed sequence tags (EST's) from Catharanthus roseus were used for the screening of Class I (hyper variable) simple sequence repeats (SSR's). A total of 502 microsatellite repeats were detected from 21730 EST sequences of turmeric after redundancy elimination. The average density of Class I SSRs account to 1 SSR per 10.21 kb of EST. Mononucleotides was the most abundant class of microsatellite motifs. It accounted for 44.02% of the total, followed by the trinucleotide (26.09%) and dinucleotide repeats (14.34%). Among all the repeat motifs, (A/T)n accounted for the highest Proportion (36.25%) followed by (AAG)n. These detected SSRs can be used to design primers that have functional importance and should also facilitate the analysis of genetic diversity, variability, linkage mapping and evolutionary relationships in plants especially medicinal plants.     

A pipeline for effectively developing highly polymorphic simple sequence repeats markers based on multi‐sample genomic data

Simple sequence repeats (SSRs) are widely used genetic markers in ecology, evolution, and conservation even in the genomics era, while a general limitation to their application is the difficulty of developing polymorphic SSR markers. Next‐generation sequencing (NGS) offers the opportunity for the rapid development of SSRs; however, previous studies developing SSRs using genomic data from only one individual need redundant experiments to test the polymorphisms of SSRs. In this study, we designed a pipeline for the rapid development of polymorphic SSR markers from multi‐sample genomic data. We used bioinformatic software to genotype multiple individuals using resequencing data, detected highly polymorphic SSRs prior to experimental validation, significantly improved the efficiency and reduced the experimental effort. The pipeline was successfully applied to a globally threatened species, the brown eared‐pheasant (Crossoptilon mantchuricum), which showed very low genomic diversity. The 20 newly developed SSR markers were highly polymorphic, the average number of alleles was much higher than the genomic average. We also evaluated the effect of the number of individuals and sequencing depth on the SSR mining results, and we found that 10 individuals and ~10X sequencing data were enough to obtain a sufficient number of polymorphic SSRs, even for species with low genetic diversity. Furthermore, the genome assembly of NGS data from the optimal number of individuals and sequencing depth can be used as an alternative reference genome if a high‐quality genome is not available. Our pipeline provided a paradigm for the application of NGS technology to mining and developing molecular markers for ecological and evolutionary studies.     

Characterization of genome-wide simple sequence repeats and application in interspecific genetic map integration in kiwifruit

Simple sequence repeats (SSRs) have been widely used in the construction of linkage maps, quantitative trait loci (QTLs) mapping, and marker-assisted selection (MAS). The availability of the sequenced Actinidia chinensis (kiwifruit) genome allows for the inexpensive and efficient development of microsatellite markers. In this study, a total of 49,067 SSRs were identified and characterized in the genome sequences of kiwifruit. Dinucleotide repeats are the most abundant SSRs, with the AG/TC motif accounting for 44.2 % of all SSRs in the genome. Fifty-five newly derived SSRs, together with 46 previously available SSRs, were integrated into linkage maps of an interspecific kiwifruit population. In addition, eight sex-linked SSR markers (including one previously published SSR) were mapped in the sex-related region on the LG25, suggesting that recombination is partially suppressed to maintain dioecy in kiwifruit. The SSRs developed from this study are a valuable resource for kiwifruit genetics and will contribute to the use of MAS in early sex determination of dioecious plant breeding.