Heteroplasmy of Short Tandem Repeats in Mitochondrial DNA of Atlantic Cod, Gadus Morhua

The mitochondrial DNA of the Atlantic cod (Gadus morhua) contains a tandem array of 40-bp repeats in the D-loop region of the molecule. Variation among molecules in the copy number of these repeats results in mtDNA length variation and heteroplasmy (the presence of more than one form of mtDNA in an individual). In a sample of fish collected from different localities around Iceland and off George's Bank, each individual was heteroplasmic for two or more mtDNAs ranging in repeat copy number from two (common) to six (rare). An earlier report on mtDNA heteroplasmy in sturgeon (Acipenser transmontanus) presented a competitive displacement model for length mutations in mtDNAs containing tandem arrays and the cod data deviate from this model. Depending on the nature of putative secondary structures and the location of D-loop strand termination, additional mechanisms of length mutation may be needed to explain the range of mtDNA length variants maintained in these populations. The balance between genetic drift and mutation in maintaining this length polymorphism is estimated through a hierarchical analysis of diversity of mtDNA length variation in the Iceland samples. Eighty percent of the diversity lies within individuals, 8% among individuals and 12% among localities. An estimate of theta = 2N(eo) mu greater than 1 indicates that this system is characterized by a high mutation rate and is governed primarily by deterministic dynamics. The sequences of repeat arrays from fish collected in Norway, Iceland and George's Bank show no nucleotide variation suggesting that there is very little substructuring to the North Atlantic cod population.     

Identification and characterization of tandem repeats in exon III of dopamine receptor D4 (DRD4) genes from different mammalian species

In this study we have identified and characterized dopamine receptor D4 (DRD4) exon III tandem repeats in 33 public available nucleotide sequences from different mammalian species. We found that the tandem repeat in canids could be described in a novel and simple way, namely, as a structure composed of 15- and 12- bp modules. Tandem repeats composed of 18-bp modules were found in sequences from the horse, zebra, onager, and donkey, Asiatic bear, polar bear, common raccoon, dolphin, harbor porpoise, and domestic cat. Several of these sequences have been analyzed previously without a tandem repeat being found. In the domestic cow and gray seal we identified tandem repeats composed of 36-bp modules, each consisting of two closely related 18-bp basic units. A tandem repeat consisting of 9-bp modules was identified in sequences from mink and ferret. In the European otter we detected an 18-bp tandem repeat, while a tandem repeat consisting of 27-bp modules was identified in a sequence from European badger. Both these tandem repeats were composed of 9-bp basic units, which were closely related with the 9-bp repeat modules identified in the mink and ferret. Tandem repeats could not be identified in sequences from rodents. All tandem repeats possessed a high GC content with a strong bias for C. On phylogenetic analysis of the tandem repeats evolutionary related species were clustered into the same groups. The degree of conservation of the tandem repeats varied significantly between species. The deduced amino acid sequences of most of the tandem repeats exhibited a high propensity for disorder. This was also the case with an amino acid sequence of the human DRD4 exon III tandem repeat, which was included in the study for comparative purposes. We identified proline-containing motifs for SH3 and WW domain binding proteins, potential phosphorylation sites, PDZ domain binding motifs, and FHA domain binding motifs in the amino acid sequences of the tandem repeats. The numbers of potential functional sites varied pronouncedly between species. Our observations provide a platform for future studies of the architecture and evolution of the DRD4 exon III tandem repeat, and they suggest that differences in the structure of this tandem repeat contribute to specialization and generation of diversity in receptor function.     

Identification and characterization of a tandem repeat in exon III of the dopamine receptor D4 (DRD4) gene in cetaceans

A large number of mammalian species harbor a tandem repeat in exon III of the gene encoding dopamine receptor D4 (DRD4), a receptor associated with cognitive functions. In this study, a DRD4 gene exon III tandem repeat from the order Cetacea was identified and characterized. Included in our study were samples from 10 white-beaked dolphins (Lagenorhynchus albirostris), 10 harbor porpoises (Phocoena phocoena), eight sperm whales (Physeter macrocephalus), and five minke whales (Balaenoptera acutorostrata). Using enzymatic amplification followed by sequencing of amplified fragments, a tandem repeat composed of 18-bp basic units was detected in all of these species. The tandem repeats in white-beaked dolphin and harbor porpoise were both monomorphic and consisted of 11 and 12 basic units, respectively. In contrast, the sperm whale harbored a polymorphic tandem repeat with size variants composed of three, four, and five basic units. Also the tandem repeat in minke whale was polymorphic; size variants composed of 6 or 11 basic units were found in this species. The consensus sequences of the basic units were identical in the closely related white-beaked dolphin and harbor porpoise, and these sequences differed by a maximum of two changes when compared to the remaining species. There was a high degree of similarity between the cetacean basic unit consensus sequences and those from members of the horse family and domestic cow, which also harbor a tandem repeat composed of 18-bp basic units in exon III of their DRD4 gene. Consequently, the 18-bp tandem repeat appears to have originated prior to the differentiation of hoofed mammals into odd-toed and even-toed ungulates. The composition of the tandem repeat in cetaceans differed markedly from that in primates, which is composed of 48-bp repeat basic units.     

Complex structure of knobs and centromeric regions in maize chromosomes

The recovery of maize (Zea mays L.) chromosome addition lines of oat (Avena sativa L.) from oat x maize crosses enables us to analyze the structure and composition of individual maize chromosomes via the isolation and characterization of chromosome-specific cosmid clones. Restriction fragment fingerprinting, sequencing, and in situ hybridization were applied to discover a new family of knob associated tandem repeats, the TR1, which are capable of forming fold-back DNA segments, as well as a new family of centromeric tandem repeats, CentC. Analysis of knob and centromeric DNA segments revealed a complex organization in which blocks of tandemly arranged repeating units are interrupted by insertions of other repeated DNA sequences, mostly represented by individual full size copies of retrotransposable elements. There is an obvious preference for the integration/association of certain retrotransposable elements into knobs or centromere regions as well as for integration of retrotransposable elements into certain sites (hot spots) of the 180-bp repeat. DNA hybridization to a blot panel of eight individual maize chromosome addition lines revealed that CentC, TR1, and 180-bp tandem repeats are found in each of these maize chromosomes, but the copy number of each can vary significantly from about 100 to 25,000. In situ hybridization revealed variation among the maize chromosomes in the size of centromeric tandem repeats as well as in the size and composition of knob regions. It was found that knobs may be composed of either 180-bp or TR1, or both repeats, and in addition to large knobs these repeated elements may form micro clusters which are detectable only with the help of in situ hybridization. The association of the fold-back elements with knobs, knob polymorphism and complex structure suggest that maize knob may be consider as megatransposable elements. The discovery of the interspersion of retrotransposable elements among blocks of tandem repeats in maize and some other organisms suggests that this pattern may be basic to heterochromatin organization for eukaryotes.     

Genetic Analysis of Systematic Mitochondrial Heteroplasmy in Rabbits

One unusual property of rabbit mitochondrial DNA (mtDNA) is the existence of repeated 153-bp motifs in the vicinity of the replication origin of its H strand. Furthermore, every individual is heteroplasmic: it carries mtDNA molecules with a variable number of repeats. A systematic study of 8 females and their progeny has been devised to analyze mtDNA transmission through generations. The results suggest that three mechanisms are acting simultaneously. (1) Genetic drift in the germ line is revealed by the evolution of heteroplasmy when two major molecular forms are present in a female. (2) A high mutation rate (around 10(-2) per animal generation) generating molecular diversity, by deletion and addition of repeated units, is required to explain the observation of heteroplasmy in every individual. Moreover, the rates of mutation from the most frequent type to the other types are unequal. The deletion of one unit is more frequent than a deletion of two units, which is in turn more frequent than a deletion of three. (3) Selection for shorter molecules in somatic cells is probable. The frequency distribution of mtDNA types depends on the organ analyzed (kidney-spleen and liver vs. gonads).     

Unique features in the mitochondrial D-loop region of the European seabass Dicentrarchus labrax

We have cloned and sequenced the displacement-loop (D-loop) region of the mitochondrial DNA (mtDNA) from the European seabass Dicentrarchus labrax (Dl). This sequencing revealed the presence of four tandemly repeated elements (R1, R2, R3 and R4); the individual variation in mtDNA total length is entirely accounted for by their variable number. The individuals examined also possessed an imperfect copy of one of the tandem repeats (ΨR2). At least one termination-associated sequence (TAS) is present in each of the repeats and in two copies 5′ upstream from the tandem array as well. The alignment of the Dl D-loop region with D-loop sequences from four other Teleosts and one Chondrosteus showed the Dl sequence to be larger than that of other fish. The extraordinary length of the D1 D-loop sequence is also due to the 5′ and 3′ regions that are flanking the tandem array, the largest ones to date analyzed in fish. In this study, we also report the unique organization and localization of putative TAS and conserved-sequence block (CSB) elements, and the presence of a conserved 218-bp sequence in the D1 D-loop region.     

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。     

Concerted evolution of sequence repeats inDrosophila mitochondrial DNA

Summary In the eightDrosophila species of themelanogaster subgroup, the mitochondrial DNA (mtDNA) contains an A+T-rich region in which replication originates. The length of this region, in contrast with that of the coding part of the genome, varies extensively among these species. The A+T-rich region ranges from about 1kbp inD. yakuba, D. teissieri, D. erecta, andD. orena to 5 kbp inD. melanogaster, D. simulans, D. mauritiana, andD. sechellia. The difference in size is due in part to the amplification, in the species with long genomes, of a 470-bp sequence that is present only once in each of the four species with short genomes.Usually three to six repeats of this sequence occur in direct tandem repetition in the species with long genomes. The sequence is characterized by the relative positions of the Hpa I and Acc I cleavage sites. Comparative study of the genomes found in the species with long mtDNA molecules reveals relative homogeneity of the repeat units within a given genome, which contrasts with the variability found among the repeats of different genomes. This result is suggestive of a process of a concerted evolution.The examination of heteroplasmic flies of three species (D. simulans, D. mauritiana, andD. sechellia) has shed light on this process. In most cases the molecular types of mtDNA present in a heteroplasmic individual differ by one repeat unit. Addition or deletion of this sequence appears to be the original mutational event generating transient heteroplasmy. Cycles of addition or deletion may consequently maintain the intragenomic homogeneity of the repeats.Finally, we have analyzed an exceptional isofemale line in which three molecular lengths of mtDNA are found (molecules with four, five, and six repeats, respectively). Individual offspring of this line carry from one to three of the molecular types, in all combinations. This indicates that the remodeling of the mitochondrial genome occurs through a mechanism that is at present unknown, but that is site specific and rather frequent.Presented at the FEBS Symposium on Genome Organization and Evolution, held in Crete, Greece, September 1–5, 1986     

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 .     

Origin and Evolution of Tandem Repeats in the Mitochondrial DNA Control Region of Shrikes (<Emphasis Type="BoldItalic">Lanius</Emphasis> spp.)

The origin and evolution of a 128-bp tandem repeat in the mtDNA control region of shrikes (Lanius: Aves) were investigated. The tandem repeat is present in only two species, L. excubitor and L. ludovicianus. In contrast to the variation in repeat number in L. ludovicianus, all individuals of three subspecies of L. excubitor had three repeats. Comparative analysis suggests that a short direct repeat, and a secondary structure including the tandem repeat and a downstream inverted repeat, may be important in the origin of the tandem repeat by slipped-strand mispairing and its subsequent turnover. Homogenization of repeat sequences is most simply explained by expansion and contraction of the repeat array. Surprisingly, mtDNA sequences from L. excubitor were found to be paraphyletic with respect to L. ludovicianus. These results show the utility of a comparative analysis for insights into the evolutionary dynamics of mtDNA tandem repeats.[Reviewing Editor: Martin Kreitman]     

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.      

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.     

Centromere 3 specific tandem repeat from Chironomus pallidivittatus

A 155-bp tandem repeat was previously reported to be present in all centromeric regions of the dipteran Chironomus pallidivittatus. We have now isolated a second centromere specific tandem repeat, 375 bp long. Two blocks were found of the new unit, differing in size, probably representing allelic forms. The repeat is present only in chromosome 3, bordering 155-bp repeat arrays. There are about 100 repeats per genome, compared to 1300 units for the 155-bp repeat. The two units contain an identical 9-bp sequence which can form target-site duplications flanking a short mobile element, Cp1. An inversion within the tandem array was isolated, the breakpoint of which is within the 9-bp target sequence. Another short shared motif, 10-bp long, is also present at the insertion site for a mobile element. The two repeat units are similar in having long regions with more than 80% AT and an overall high AT content. Received: 16 February 1998; in revised form: 4 August 1998 / Accepted: 5 August 1998     

The significance and effect of tandem repeats within the Mycobacterium tuberculosis leuA gene on alpha-isopropylmalate synthase

The 57-bp tandem repeats located in the Mycobacterium tuberculosis leuA gene code for the alpha-isopropylmalate synthase (alpha-IPMS). It is unique to this pathogen. It was previously demonstrated that the leuA-coding sequence Rv3710, containing the tandem repeats, can be translated to an active alpha-IPMS. The objective of the present study was to investigate the significance and effect of the two 57-bp tandem repeats upon gene expression and the general properties of alpha-IPMS. The putative M. tuberculosis H37Rv leuA gene with and without the tandem repeats was cloned by PCR and expressed in an Escherichia coli host. The enzyme product was studied for general properties, comparing that from a native leuA gene containing two repeats and that from the 57-bp tandem repeats deletion mutant. Upon deletion of the two 57-bp tandem repeats, the expression level of leuA from M. tuberculosis H37Rv was comparable with that of the native form. The general properties of the two types of enzymes were similar. They were both functional with the same range of optimal temperature and optimal pH for activity and with similar enzyme stability. Deletion of the repeats had no detectable effect on leuA expression level or the general properties of the enzyme product.     

JC virus regulatory region tandem repeats in plasma and central nervous system isolates correlate with poor clinical outcome in patients with progressive multifocal leukoencephalopathy

JC virus (JCV), the causative agent of progressive multifocal leukoencephalopathy (PML), has a hypervariable regulatory region (JCV RR). A conserved archetype form is found in the urines of healthy and immunocompromised individuals, whereas forms with tandem repeats and deletions are found in the brains of PML patients. Type I JCV RR, seen in MAD-1, the first sequenced strain of JCV, contains two 98-bp tandem repeats each containing a TATA box. Type II JCV RR has additional 23-bp and 66-bp inserts or fragments thereof and only one TATA box. We cloned and sequenced JCV RR from different anatomic compartments of PML patients and controls and correlated our findings with the patients' clinical outcome. Twenty-three different sequences were defined in 198 clones obtained from 16 patients. All 104 clones with tandem repeats were type II JCV RR. Patients with poor clinical outcome had high proportions of JCV RR clones with both tandem repeats in plasma (54%) and brain or cerebrospinal fluid (85%). In those who became survivors of PML, archetype sequences predominated in these anatomic compartments (75 and 100%, respectively). In patients with advanced human immunodeficiency virus infection without PML, only 8% of JCV RR clones obtained in the plasma contained tandem repeats. These data suggest that the presence of tandem repeats in plasma and CNS JCV RR clones is associated with poor clinical outcome in patients with PML.