Characterization of a mosaic minisatellite locus in the mitochondrial DNA of Norway spruce [<Emphasis Type="Italic">Picea abies</Emphasis> (L.) Karst.]

A mosaic minisatellite region has been identified in the mitochondrial genome of Norway spruce (Picea abies). The array was composed of three tandem repeats PaTR1 (32 bp), PaTR2a (26 bp) and PaTR2b (26 bp). PaTR2a and PaTR2b differed by one base substitution. The analysis of 92 trees covering the whole natural distribution area of the species allowed detection of 11 length variants ranging from 131 bp to 447 bp. This high intra-specific polymorphism relies on variation in the number of the tandem repeats. Population genetic parameters estimated among 14 populations suggested high population differentiation (Gst=0.749). The phylogenetic analysis of the 11 sequenced length variants has been performed using a parsimony approach. The topology of the tree showed a good association of groups with geographical origin and a low level of size homoplasy. The phylogenetic reconstruction also suggests that this minisatellite locus has mainly evolved by an increase in the repeat copy number.     

甜菜属厚皮菜SWTY-1细胞质VNTRs多态性分析

利用数目可变串联重复序列(Variable Number of Tandem Repeats,VNTRs)微卫星标记方法,对重庆厚皮菜甜菜材料SWTY-1群体中100个单株的细胞质线粒体DNA片段中TR2位点VNTRs片段多态性进行分析。结果显示97个单株线粒体TR2位点微卫星串联重复序列均为3拷贝,与普通糖甜菜一致;3个单株线粒体TR2位点微卫星串联重复序列为6拷贝,发现甜菜属厚皮菜细胞质TR2位点VNTRs存在多态性,在该群体中发现了不同于甜菜栽培种新的细胞质单株。对该群体材料100个单株的抽薹及结籽进行观测,结果显示微卫星串联重复序列为6拷贝的变异植株中2个单株花期未抽苔开花,1株抽苔晚未形成正常种子;细胞质TR2位点VNTRs片段拷贝数为3的植株中2个单株未能正常抽薹,其他植株均正常抽薹结籽。     

Hypervariability of the D-loop region in mitochondrial DNA of Russian sturgeon <Emphasis Type="Italic">Acipenser gueldenstaedtii</Emphasis> (Acipenseriformes,Acipenseridae)

The structure of the D-loop region in mitochondrial DNA (mtDNA) of Russian sturgeon Acipenser gueldenstaedtii from the Azov Sea population was studied with the method of direct sequencing. Interindividual heteroplasmy of the length of mtDNA in the region of D-loop realized by the presence of a different number of tandem repeats (82 pairs of bases) was found. Analysis of tandem repeats in the D-loop region in mtDNA in the studied sample (28 individuals) revealed eight mitotypes differed in the pattern of nucleotide substitution and in the number of tandem repeats (2, 3, and 4 repeats). Revealed mitotypes can be considered as potential genetic markers for different biological groups, schools, or seasonal races of A. gueldenstaedtii.     

One-way sequencing of multiple amplicons from tandem repetitive mitochondrial DNA control region

Repetitive DNA sequences not only exist abundantly in eukaryotic nuclear genomes, but also occur as tandem repeats in many animal mitochondrial DNA (mtDNA) control regions. Due to concerted evolution, these repetitive sequences are highly similar or even identical within a genome. When long repetitive regions are the targets of amplification for the purpose of sequencing, multiple amplicons may result if one primer has to be located inside the repeats. Here, we show that, without separating these amplicons by gel purification or cloning, directly sequencing the mitochondrial repeats with the primer outside repetitive region is feasible and efficient. We exemplify it by sequencing the mtDNA control region of the mosquito Aedes albopictus, which harbors typical large tandem DNA repeats. This one-way sequencing strategy is optimal for population surveys.     

Nonneutral evolution of tandem repeats in the mitochondrial DNA control region of lagomorphs

The mitochondrial DNA of the European rabbit (Oryctolagus cuniculus) contains a tandem array of 153-bp repeats in the vicinity of the replication origin of the H-stand. Variation among molecules in the number of these repeats results in inter- and intraindividual length polymorphism (heteroplasmy). Generally, in an individual, one predominant molecular type is observed, the others representing a low percentage of the mtDNA content. At the tissue level, we observe a particular distribution of this polymorphism in the gonads compared with liver, kidneys, or brain, implying a relationship between the differentiation status of the cells and the types of new mtDNA molecules which appear and accumulate during lifetime. Similar tandem repeats were also found in the mtDNA noncoding region of European hares (Lepus europaeus), a cottontail (Sylvilagus floridanus), and a pika (Ochotona rufescens). The lengths and the sequences of these units evolve rapidly and in a concerted way, but the number of repeats is maintained in a narrow range, and an internal 20-bp segment is highly conserved. Constraints restrict the evolution of the primary sequence of these repeated units, the number of which is probably controlled by a stabilizing selection.      

Patterns of sequence variation in the mitochondrial D-loop region of shrews

Direct sequencing of the mitochondrial displacement loop (D-loop) of shrews (genus Sorex) for the region between the tRNA(Pro) and the conserved sequence block-F revealed variable numbers of 79-bp tandem repeats. These repeats were found in all 19 individuals sequenced, representing three subspecies and one closely related species of the masked shrew group (Sorex cinereus cinereus, S. c. miscix, S. c. acadicus, and S. haydeni) and an outgroup, the pygmy shrew (S. hoyi). Each specimen also possessed an adjacent 76-bp imperfect copy of the tandem repeats. One individual was heteroplasmic for length variants consisting of five and seven copies of the 79-bp tandem repeat. The sequence of the repeats is conducive to the formation of secondary structure. A termination-associated sequence is present in each of the repeats and in a unique sequence region 5' to the tandem array as well. Mean genetic distance between the masked shrew taxa and the pygmy shrew was calculated separately for the unique sequence region, one of the tandem repeats, the imperfect repeat, and these three regions combined. The unique sequence region evolved more rapidly than the tandem repeats or the imperfect repeat. The small genetic distance between pairs of tandem repeats within an individual is consistent with a model of concerted evolution. Repeats are apparently duplicated and lost at a high rate, which tends to homogenize the tandem array. The rate of D- loop sequence divergence between the masked and pygmy shrews is estimated to be 15%-20%/Myr, the highest rate observed in D-loops of mammals. Rapid sequence evolution in shrews may be due either to their high metabolic rate and short generation time or to the presence of variable numbers of tandem repeats.      

Induction of Expression Instability of the nptII Gene in Transgenic Tobacco Plants

A comparative analysis of the neomycin phosphotransferase (nptII) gene expression was performed in two groups of transformed tobacco plants, one of which included plants with direct and inverted tandem uidA gene repeats in the T-DNA insertion. This insertion of inverted repeats was shown to reduce the level of stable nptII gene expression to 20%, as compared with 65% in the control transformants. The level of unstable expression of this gene substantially increased (up to 71.4% vs. 5.5% in the control group) when homologous sequences were brought together with direct tandem repeats in the genome of hybrid plants.     

Evolution of Repeated Sequence Arrays in the D-Loop Region of Bat Mitochondrial DNA

Analysis of mitochondrial DNA control region sequences from 41 species of bats representing 11 families revealed that repeated sequence arrays near the tRNA-Pro gene are present in all vespertilionine bats. Across 18 species tandem repeats varied in size from 78 to 85 bp and contained two to nine repeats. Heteroplasmy ranged from 15% to 63%. Fewer repeats among heteroplasmic than homoplasmic individuals in a species with up to nine repeats indicates selection may act against long arrays. A lower limit of two repeats and more repeats among heteroplasmic than homoplasmic individuals in two species with few repeats suggests length mutations are biased. Significant regressions of heteroplasmy, θ and π, on repeat number further suggest that repeat duplication rate increases with repeat number. Comparison of vespertilionine bat consensus repeats to mammal control region sequences revealed that tandem repeats of similar size, sequence and number also occur in shrews, cats and bighorn sheep. The presence of two conserved protein-binding sequences in all repeat units indicates that convergent evolution has occurred by duplication of functional units. We speculate that D-loop region tandem repeats may provide signal redundancy and a primitive repair mechanism in the event of somatic mutations to these binding sites.     

Cloning and characterization of a microsatellite in the mitochondrial control region of the African side-necked turtle,Pelomedusa subrufa

The nucleotide sequence of the African side-necked turtle mitochondrial control region and its flanking tRNA genes was determined. This 73% A+T-rich region is 1194 bp long. Several conserved motifs involved in the regulation of the mitochondrial genome replication process, including one conserved sequence block (CSB1), and three termination-associated sequences were identified. The most remarkable feature found in this control region was the presence of six microsatellite-containing tandem repeats between the CSB1 motif and the tRNA^Phe gene. The potential usefulness of this microsatellite sequence for population-level studies is enhanced by its unique localization in the maternally inherited mitochondrial molecule.     

中华鲟(Acipenser sinensis)及相关种类的mtDNA控制区串联重复序列及其进化意义

采用 PCR技术和 DNA测序技术 ,发现了我国一级珍稀保护动物中华鲟 ( Acipensersinensis)线粒体 DNA( mt DNA)的控制区 ( D- loop)存在数目不等的串联重复序列 ,该重复序列造成了中华鲟广泛的异质性现象 .从分子水平进行了不同类型重复序列变化规律的研究 ,同时还初探了重复序列在我国其它几种鲟鱼类的存在情况 ,发现在白鲟 ( Psephurus gladius)、达氏鲟 ( A.dabryanus)和史氏鲟 ( A.schrenckii)均存在类似的重复序列结构 .序列比较分析表明 ,不同鲟鱼类重复序列在鲟鱼类进化过程中扮演着一定的角色 ,很有可能碱基差异大小与它们的亲缘关系的远近呈正相关 .     

The novel mitochondrial gene arrangement of the cattle tick, Boophilus microplus: fivefold tandem repetition of a coding region.

We sequenced across all of the gene boundaries in the mitochondrial genome of the cattle tick, Boophilus microplus, to determine the arrangement of its genes. The mtDNA of B. microplus has a coding region, composed of tRNA(Glu) and 60 bp of the 3' end of ND1, that is repeated five times. Boophilus microplus is the first coelomate animal known to have more than two copies of a coding sequence. The mitochondrial genome of B. microplus has other unusual features, including (1) reduced T arms in tRNAs, (2) an AT bias in codon use, (3) two control regions that have evolved in concert, (4) three gene rearrangements, and (5) a stem-loop between tRNA(Gln) and tRNA(Phe). The short T arms and small control regions (CRs) of B. microplus and other ticks suggest strong selection for small genomes. Imprecise termination of replication beyond its origin, which can account for the evolution of tandem repeats of coding regions in other mitochondrial genomes, cannot explain the evolution of the fivefold repeated sequence in the mitochondrial genome of B. microplus. Instead, slipped-strand mispairing or recombination are the most plausible explanations for the evolution of these tandem repeats.     

The effect of the nucleotide context on induction of mutations in hypervariable segment 1 of the human mitochondrial DNA

The distribution of unstable nucleotide positions with a higher frequency of homoplastic mutations was analyzed in hypervariable segment 1 (HVS1) of the major noncoding region of human mtDNA. Three motifs (GTAC, ACCC, CCTC) proved to be associated with a higher rate of point substitutions at unstable positions. The motifs were often arranged in direct, including tandem, repeats. Motifs CCTC and ACCC were found in extended poly(C) tracts, which form direct repeats associated with deletions and tandem duplications. The results suggested that the inconstancy of the human mitochondrial genome is to a great extent determined by context-dependent mutations.     

The mitochondrial genome of the legume Vigna radiata and the analysis of recombination across short mitochondrial repeats

The mitochondrial genomes of seed plants are exceptionally fluid in size, structure, and sequence content, with the accumulation and activity of repetitive sequences underlying much of this variation. We report the first fully sequenced mitochondrial genome of a legume, Vigna radiata (mung bean), and show that despite its unexceptional size (401,262 nt), the genome is unusually depauperate in repetitive DNA and "promiscuous" sequences from the chloroplast and nuclear genomes. Although Vigna lacks the large, recombinationally active repeats typical of most other seed plants, a PCR survey of its modest repertoire of short (38-297 nt) repeats nevertheless revealed evidence for recombination across all of them. A set of novel control assays showed, however, that these results could instead reflect, in part or entirely, artifacts of PCR-mediated recombination. Consequently, we recommend that other methods, especially high-depth genome sequencing, be used instead of PCR to infer patterns of plant mitochondrial recombination. The average-sized but repeat- and feature-poor mitochondrial genome of Vigna makes it ever more difficult to generalize about the factors shaping the size and sequence content of plant mitochondrial genomes.     

Genetic analysis of a Scytho-Siberian skeleton and its implications for ancient Central Asian migrations

The excavation of a frozen grave on the Kizil site (dated to be 2500 years old) in the Altai Republic (Central Asia) revealed a skeleton belonging to the Scytho-Siberian population. DNA was extracted from a bone sample and analyzed by autosomal STRs (short tandem repeats) and by sequencing the hypervariable region I (HV1) of the mitochondrial DNA. The resulting STR profile, mitochondrial haplotype, and haplogroup were compared with data from modern Eurasian and northern native American populations and were found only in European populations historically influenced by ancient nomadic tribes of Central Asia.     

Repetitive sequences in the crocodilian mitochondrial control region: poly-A sequences and heteroplasmic tandem repeats

Heteroplasmic tandem repeats in the mitochondrial control region have been documented in a wide variety of vertebrate species. We have examined the control region from 11 species in the family Crocodylidae and identified two different types of heteroplasmic repetitive sequences in the conserved sequence block (CSB) domain-an extensive poly-A tract that appears to be involved in the formation of secondary structure and a series of tandem repeats located downstream ranging from approximately 50 to approximately 80 bp in length. We describe this portion of the crocodylian control region in detail and focus on members of the family Crocodylidae. We then address the origins of the tandemly repeated sequences in this family and suggest hypotheses to explain possible mechanisms of expansion/contraction of the sequences. We have also examined control region sequences from Alligator and Caiman and offer hypotheses for the origin of tandem repeats found in those taxa. Finally, we present a brief analysis of intraindividual and interindividual haplotype variation by examining representatives of Morelet's crocodile (Crocodylus moreletii).     

The Effect of the Nucleotide Context on Induction of Mutations in Hypervariable Segment 1 of Human Mitochondrial DNA

The distribution of unstable nucleotide positions with a higher frequency of homoplastic mutations was analyzed in hypervariable segment 1 (HVS1) of the major noncoding region of human mtDNA. Three motifs (GTAC, ACCC, CCTC) proved to be associated with a higher rate of point substitutions at unstable positions. The motifs were often arranged in direct, including tandem, repeats. Motifs CCTC and ACCC were found in extended poly(C) tracts, which form direct repeats associated with deletions and tandem duplications. The results suggested that the inconstancy of the human mitochondrial genome is to a great extent determined by context-dependent mutations.     

Evolution of an Ancient Microsatellite Hotspot in the Conifer Mitochondrial Genome and Comparison with Other Plants

In plants, mitochondrial sequence tandem repeats (STRs) have been associated with intragenomic recombination, a process held responsible for evolutionary outcomes such as gene regulation or cytoplasmic male-sterility. However, no link has been established between the recurrent accumulation of STRs and increased mutation rates in specific regions of the plant mtDNA genome. Herein, we surveyed this possibility by comparing, in a phylogenetic context, the variation of a STR-rich mitochondrial intron (nad5-4) with eleven mtDNA genes devoid of STRs within Abies (Pinaceae) and its related genera. This intron has been accumulating repeated stretches, generated by at least three-independent insertions, before the split of the two Pinaceae subfamilies, Abietoideae and Pinoideae. The last of these insertions occurred before the divergence of Abies and produced, exclusively within this genus, a tenfold increase of both the indel and substitution rates in the STR hotspot of the intron. The regions flanking the STRs harbored mutation rates as low as those estimated in mitochondrial genes devoid of repeated stretches. Further searches in complete plant mtDNA genomes, and previous studies reporting polymorphic mtSTRs, revealed that repeated stretches are common in all sorts of plants, but their accumulation in STR hotspots appears to be taxa specific. Our study suggests a new mutagenic role for repeated sequences in the plant mtDNA.     

The mitochondrial genome of the water spider Argyroneta aquatica (Araneae: Cybaeidae)

We sequenced nearly the entire mitochondrial genome of Argyroneta aquatica, a wholly underwater‐living spider, thereby enhancing the available genomic information for Arachnida. The confirmed sequences contained the complete set of known genes present in other metazoan mitochondrial genomes. However, the mitochondrial gene order of A. aquatica was distinctly different from that of the most distant Chelicerata Limulus polyphemus (Xiphosura), probably because of a series of gene translocations and/or inversions. Comparison of arachnid mitochondrial gene orders for the purpose of phylogenetic inference is only minimally useful, but provides a strong signal in closely related lineages. To test the basal relationships and the evolutionary pattern of tRNA gene rearrangements among Arachnida, phylogenetic analyses using amino acid sequences of the 13 protein‐coding genes were performed. An interesting feature, the five 135‐bp tandem repeats and two 363‐bp tandem repeats, was identified in the putative control region. Although control region tandem repeats have been reported in many other arachnid and metazoan species, this is the first time it has been described in spiders.     

Tandem repeats over the edit distance

MOTIVATION: A tandem repeat in DNA is a sequence of two or more contiguous, approximate copies of a pattern of nucleotides. Tandem repeats occur in the genomes of both eukaryotic and prokaryotic organisms. They are important in numerous fields including disease diagnosis, mapping studies, human identity testing (DNA fingerprinting), sequence homology and population studies. Although tandem repeats have been used by biologists for many years, there are few tools available for performing an exhaustive search for all tandem repeats in a given sequence. RESULTS: In this paper we describe an efficient algorithm for finding all tandem repeats within a sequence, under the edit distance measure. The contributions of this paper are two-fold: theoretical and practical. We present a precise definition for tandem repeats over the edit distance and an efficient, deterministic algorithm for finding these repeats. AVAILABILITY: The algorithm has been implemented in C++, and the software is available upon request and can be used at http://www.sci.brooklyn.cuny.edu/~sokol/trepeats. The use of this tool will assist biologists in discovering new ways that tandem repeats affect both the structure and function of DNA and protein molecules.