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.     

Structure and Conservation of Tandem Repeats in the Mitochondrial DNA Control Region of the Least Brook Lamprey (<Emphasis Type="Italic">Lampetra aepyptera</Emphasis>)

Tandemly repeated sequences are a common feature of vertebrate mitochondrial DNA control regions. However, questions still remain about their mode of evolution, function, and phylogenetic distribution. We report phylogenetic and geographic patterns of variation of control region repeat sequence and number in a nonparasitic lamprey, Lampetra aepyptera. A survey of populations from throughout the species’ range revealed remarkably low repeat sequence polymorphism but some interpopulation variation in repeat number. The high sequence similarity extended to repeats observed in other species in the genus Lampetra and other lamprey genera. The very low levels of variation suggest a high copy turnover. Our data are consistent with the illegitimate elongation model of repeat gain and loss and further suggest that repeat change occurs at internal copies. However, the limited variation across some species of lamprey suggests that functional constraints may further limit variation.     

mtDNA tandem repeats in domestic dogs and wolves: mutation mechanism studied by analysis of the sequence of imperfect repeats

The mitochondrial (mt) DNA control region (CR) of dogs and wolves contains an array of imperfect 10 bp tandem repeats. This region was studied for 14 domestic dogs representing the four major phylogenetic groups of nonrepetitive CR and for 5 wolves. Three repeat types were found among these individuals, distributed so that different sequences of the repeat types were formed in different molecules. This enabled a detailed study of the arrays and of the mutation events that they undergo. Extensive heteroplasmy was observed in all individuals; 85 different array types were found in one individual, and the total number of types was estimated at 384. Among unrelated individuals, no identical molecules were found, indicating a high rate of evolution of the region. By performing a pedigree analysis, array types which had been inherited from mother to offspring and array types which were the result of somatic mutations, respectively, could be identified, showing that about 20% of the molecules within an individual had somatic mutations. By direct pairwise comparison of the mutated and the original array types, the physiognomy of the inserted or deleted elements (indels) and the approximate positions of the mutations could be determined. All mutations could be explained by replication slippage or point mutations. The majority of the indels were 1-5 repeats long, but deletions of up to 17 repeats were found. Mutations were found in all parts of the arrays, but at a higher frequency in the 5' end. Furthermore, the inherited array types within the mother-offspring pair were aligned and compared so that germ line mutations could be studied. The pattern of the germ line mutations was approximately the same as that of the somatic mutations.     

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.     

De novo facioscapulohumeral muscular dystrophy: frequent somatic mosaicism, sex-dependent phenotype, and the role of mitotic transchromosomal repeat interaction between chromosomes 4 and 10

Autosomal dominant facioscapulohumeral muscular dystrophy (FSHD) is caused by deletion of most copies of the 3.3-kb subtelomeric D4Z4 repeat array on chromosome 4q. The molecular mechanisms behind the deletion and the high proportion of new mutations have remained elusive. We surveyed 35 de novo FSHD families and found somatic mosaicism in 40% of cases, in either the patient or an asymptomatic parent. Mosaic males were typically affected; mosaic females were more often the unaffected parent of a nonmosaic de novo patient. A genotypic-severity score, composed of the residual repeat size and the degree of somatic mosaicism, yields a consistent relationship with severity and age at onset of disease. Mosaic females had a higher proportion of somatic mosaicism than did mosaic males. The repeat deletion is significantly enhanced by supernumerary homologous repeat arrays. In 10% of normal chromosomes, 4-type repeat arrays are present on chromosome 10. In mosaic individuals, 4-type repeats on chromosome 10 are almost five times more frequent. The reverse configuration, also 10% in normal chromosomes, was not found, indicating that mutations may arise from transchromosomal interaction, to which the increase in 4-type repeat clusters is a predisposing factor. The somatic mosaicism suggests a mainly mitotic origin; mitotic interchromosomal gene conversion or translocation between fully homologous 4-type repeat arrays may be a major mechanism for FSHD mutations.     

Repeated sequence sets in mitochondrial DNA molecules of root knot nematodes (Meloidogyne): nucleotide sequences, genome location and potential for host-race identification.

Within a 7 kb segment of the mtDNA molecule of the root knot nematode, Meloidogyne javanica, that lacks standard mitochondrial genes, are three sets of strictly tandemly arranged, direct repeat sequences: approximately 36 copies of a 102 ntp sequence that contains a TaqI site; 11 copies of a 63 ntp sequence, and 5 copies of an 8 ntp sequence. The 7 kb repeat-containing segment is bounded by putative tRNAasp and tRNAf-met genes and the arrangement of sequences within this segment is: the tRNAasp gene; a unique 1,528 ntp segment that contains two highly stable hairpin-forming sequences; the 102 ntp repeat set; the 8 ntp repeat set; a unique 1,068 ntp segment; the 63 ntp repeat set; and the tRNAf-met gene. The nucleotide sequences of the 102 ntp copies and the 63 ntp copies have been conserved among the species examined. Data from Southern hybridization experiments indicate that 102 ntp and 63 ntp repeats occur in the mtDNAs of three, two and two races of M.incognita, M.hapla and M.arenaria, respectively. Nucleotide sequences of the M.incognita Race-3 102 ntp repeat were found to be either identical or highly similar to those of the M.javanica 102 ntp repeat. Differences in migration distance and number of 102 ntp repeat-containing bands seen in Southern hybridization autoradiographs of restriction-digested mtDNAs of M.javanica and the different host races of M.incognita, M.hapla and M.arenaria are sufficient to distinguish the different host races of each species.     

Molecular characterization of a repeat element causing large-scale size variation in the mitochondrial DNA of the sea scallop Placopecten magellanicus

The scallop Placopecten magellanicus has the largest reported animal mitochondrial DNA (average 35 kb) and exhibits large inter- and intraindividual length variation owing to the varying copy number of a repeated element. We have characterized the repeat array by using restriction mapping and sequence analysis. The repeated element consists of 1,442 bp flanked on either side by the sequence ACTTTCC in a direct orientation. The array contains two to eight copies of the repeated element arranged in a direct orientation and in tandem. Only complete copies of the element are present in the array. The repeat element contains three regions with characteristic nucleotide sequences: a 10-bp inverted repeat shown to extrude into a cruciform in a supercoiled DNA plasmid, a 120-bp tract rich in G/C (70%) and adjacent to the inverted repeat, and periodically interspersed homopolymer runs of A and T occurring near the middle of the element which induce DNA curvature in dimeric constructs of the element. The element appears to be unique to P. magellanicus. The structural properties of the repeat element and its organization in an array of repeats may be important in explaining the generation and maintenance of large-scale mitochondrial DNA size variation observed in many animal species.     

猪线粒体控制区微卫星(mtMs)变异及其分布特征

猪线粒体DNA长度因D-loop中mtMs序列重复数变异而不同。为阐明猪mtMs变异及其在不同群体中的分布特征,本研究对4个藏猪群体、八眉猪、烟台黑猪及3个引入猪群体共164个个体mtDNA D-loop全序进行测定,并与GenBank中发表的相关序列进行比对,分析了其中的重复单元核苷酸变异、重复次数及其在各群体间的分布规律。结果表明,因重复单元“5’-TGCGTACACG-3’”第2~4和10位上碱基变异,猪mtMs形成了以其为核心序列的多种重复单元(R^A^R^G)组成的复合结构,重复数介于3~47之间。单一重复(R^A)组成的mtMs结构在各群体中表现出分布优势,而大多数复合结构(R^AR^B)分布在国外选育群体中。藏猪的mtMs复合结构多达8个,R^AR^CR^E为其特有,另有5个与八眉猪共享。中国野猪和韩国地方猪种也有其特有mtMs结构。丰富的mtMs变异和特有结构与长期适应进化有关,本研究为地方猪种遗传资源及适应性研究提供了标记工具和理论基础。     

Generalized linear mixed model for segregation distortion analysis

Background

Concerted evolution refers to the pattern in which copies of multigene families show high intraspecific sequence homogeneity but high interspecific sequence diversity. Sequence homogeneity of these copies depends on relative rates of mutation and recombination, including gene conversion and unequal crossing over, between misaligned copies. The internally repetitive intergenic spacer (IGS) is located between the genes for the 28S and 18S ribosomal RNAs. To identify patterns of recombination and/or homogenization within IGS repeat arrays, and to identify regions of the IGS that are under functional constraint, we analyzed 13 complete IGS sequences from 10 individuals representing four species in the Daphnia pulex complex.

Results

Gene conversion and unequal crossing over between misaligned IGS repeats generates variation in copy number between arrays, as has been observed in previous studies. Moreover, terminal repeats are rarely involved in these events. Despite the occurrence of recombination, orthologous repeats in different species are more similar to one another than are paralogous repeats within species that diverged less than 4 million years ago. Patterns consistent with concerted evolution of these repeats were observed between species that diverged 8-10 million years ago. Sequence homogeneity varies along the IGS; the most homogeneous regions are downstream of the 28S rRNA gene and in the region containing the core promoter. The inadvertent inclusion of interspecific hybrids in our analysis uncovered evidence of both inter- and intrachromosomal recombination in the nonrepetitive regions of the IGS.

Conclusions

Our analysis of variation in ribosomal IGS from Daphnia shows that levels of homogeneity within and between species result from the interaction between rates of recombination and selective constraint. Consequently, different regions of the IGS are on substantially different evolutionary trajectories.     

Patterns of intra- and interarray sequence variation in alpha satellite from the human X chromosome: evidence for short-range homogenization of tandemly repeated DNA sequences

A number of processes, such as sequence conversion, unequal crossingover, and molecular drive, have been postulated to explain the homogenization of tandemly repeated DNA families. To investigate the nature and extent of such processes in the alpha satellite family of centromeric DNA, we determined the nucleotide sequence of approximately 700 bp from each of 40 representative alpha satellite repeats from six sources of human X chromosomes, obtaining a total of approximately 28 kb of sequence data. Sequence divergence among the repeats examined was low, with an average pairwise difference of approximately 1%. Pairwise comparisons of all repeats indicate that the degree of similarity for those repeats in physical proximity (within approximately 15 kb) of each other is significantly greater than that for randomly located repeats, from either the same or different X chromosomes, suggesting that the mechanisms predicted to homogenize these arrays are effectively short-range in action. Analysis of individual patterns of sequence variation allows the assignment of haplotypes for five high-copy-number diagnostic positions and reveals distinct positions of equilibrium and disequilibrium within the repeat. These analyses address hypotheses about the origin of the observed patterns of variation throughout alpha satellite evolution.     

Length and sequence polymorphisms in the ribosomal gene spacer of the Hawaiian sea urchin, T. gratilla

Blot-hybridization of sea urchin (Tripneustes gratilla) genomic DNA with a cloned rDNA probe revealed individual variation in the length of the rDNA repeat unit and also in the non-transcribed spacer sequences. The number of distinct rDNA repeat subclasses distinguishable within any one sea urchin was limited and usually 2 to 3. However, examination of a number of sea urchins indicated a large number of distinct rDNA repeat types in the population as a whole; all of the rDNA repeat types in nine individuals were different. The presence of limited heterogeneity in the rDNA repeats of single individuals, with may different repeat types in the population as a whole, suggests that rDNA variants can be rapidly and selectively propagated within a chromosomal lineage.     

中国明对虾基因组小卫星重复序列分析

通过对中国明对虾基因组随机DNA片断的测序 ,我们获得了总长度约 6 4 10 0 0个碱基的基因组DNA序列 ,从中共找到 172 0个重复序列。其中 ,小卫星序列的数目为 398个 ,占重复序列总数目的 2 3 14 %。这些小卫星序列的重复单位长度为 7- 16 5个碱基 ,集中分布于 7- 2 1个碱基范围内 ,其中以重复单位长度为 12个碱基的重复序列数目最多 ,为 5 8个 ,占小卫星重复序列总数目的 14 5 7%。不同拷贝数目所对应的重复序列的数目情况为 :拷贝数目为 2的重复单位所组成的重复序列数目最多 ,为 137个 ;其次是拷贝数目为 3的重复序列 ,为12 2个 ,且随着拷贝数目的增加 ,由其所组成的重复序列的数目呈递减的趋势。其中一部分序列见GeneBank数据库 ,登录号为AY6 990 72 -AY6 990 76。 398个重复序列分别由 398种重复单位所组成 ,因而小卫星重复序列的类型很多 ,我们初步分成三类 :两种碱基组成类别、三种碱基组成类别和四种碱基组成类别 ,并进一步根据各个重复序列中所含有的碱基种类的数量从大到小排列这些碱基而分成若干小类。从这些分类中可以看出 ,中国明对虾基因组中的小卫星整体上是富含A T的重复序列 ,并具有一定的“等级制度” ,揭示了其与微卫星重复序列之间的关系 ,即一部分小卫星重复序列可能起源于微卫星     

Mitochondrial inheritance in Schistosoma mansoni: mitochondrial variable number tandem repeat mutation produces noise on top of the signal.

The Schistosoma mansoni mitochondrial genome contains tandemly arrayed copies of a 62-base repeat motif. The tandem array is highly polymorphic with respect to number of repeats and commonly exhibits heteroplasmy. This study shows that a very high rate of mutation rapidly produces new repeat lengths (new haplotypes) for this mitochondrial variable number tandem repeat. A maternal inheritance pattern is also demonstrated for this repeat sequence, while the high mutation rate causes some offspring to exhibit nonmaternal haplotypes. Frequent generation of new haplotypes can be observed within samples of clonal cohorts taken from monomiracidial snail infections. These same clonal cercarial groups, when crossed, produce F1 generations that exhibit the maternal set of haplotypes, across all individuals, with the frequent addition of new mutant haplotypes. In each of 2 crosses, a subset of the recently arisen haplotypes match paternal haplotypes by chance (30.4% and 18.8%), thus giving the false appearance of partial paternal inheritance of mitochondria.     

The tolerance of a modular protein to duplication and deletion of internal repeats

Ankyrin repeat polypeptides contain repeated structural elements that pack to produce modular architectures lacking in close contacts between distant segments of the polypeptide chain. Despite this lack of sequence-distant contacts, ankyrin repeat polypeptides have been shown to fold in a cooperative manner. To determine the distance over which cooperative interactions can be propagated in a repeat protein, and to investigate the tolerance to internal duplication and deletion of modules, we have constructed a series of ankyrin repeat variants of the Notch ankyrin domain in which repeat number is varied by duplication and deletion of internal repeats. A construct with two copies of the fifth ankyrin repeat shows a modest increase in stability compared to the parent construct and retains apparent two-state unfolding behavior. Although constructs containing three and four copies of the fifth repeat retain this increased resistance to urea, they exhibit broad, multi-state unfolding transitions compared to the parent construct. For the Notch ankyrin domain, these larger constructs may represent a limit beyond which full cooperativity cannot be maintained. Deletions of internal repeats from the Notch ankyrin domain significantly destabilize the domain. This severe destabilization, which is larger than that resulting from end-repeat deletion, may arise from unfavorable interactions within the new non-native interfaces produced by internal repeat deletion. These results demonstrate both an asymmetry between the duplication and deletion of internal repeats, and a difference between deletion of internal and end-repeats, suggesting preferred mechanisms for evolution of repeat proteins.     

Genomic organization and evolution of the soybean SB92 satellite sequence

Repetitive DNA sequences comprise a large percentage of plant genomes, and their characterization provides information about both species and genome evolution. We have isolated a recombinant clone containing a highly repeated DNA element (SB92) that is homologous to ca. 0.9% of the soybean genome or about 10⁵ copies. This repeated sequence is tandemly arranged and is found in four or five major genomic locations. FISH analysis of metaphase chromosomes suggests that two of these locations are centromeric. We have determined the sequence of two cloned repeats and performed genomic sequencing to obtain a consensus sequence. The consensus repeat size was 92 bp and exhibited an average of 10% nucleotide substitution relative to the two cloned repeats. This high level of sequence diversity suggests an ancient origin but is inconsistent with the limited phylogenetic distribution of SB92, which is found an high copy number only in the annual soybeans. It therefore seems likely that this sequence is undergoing very rapid evolution.     

The heterochromatin of grasshoppers from the Caledia captiva species complex. I. Sequence evolution and conservation in a highly repeated DNA family

The restriction enzyme TaqI digests 0.2% of the genomic DNA from the grasshopper Caledia captiva to a family of sequences 168 bp in length (length of consensus sequence). The sequence variation of this "Taq family" of repeat units was examined among four races from C. captiva to assay the pattern of evolution within this highly repeated DNA. The Taq-family repeats are located in C-banded heterochromatin on at least one member of each homologous pair of chromosomes; the locations range from centromeric to telomeric. Thirty-nine cloned repeats isolated from two population 1A individuals along with 11 clones from seven populations taken from three of the races demonstrated sequence variation at 72 positions. Pairwise comparisons of the cloned repeats, both within an individual and between different races, indicate that levels of intraspecific divergence, as measured by reproductive incompatibility, do not correlate with sequence divergence among the 168-bp repeats. A number of subsequences within the repeat remain unchanged among all 50 clones; the longest of these is 18 bp. That the same 18-bp subsequence is present in all clones examined is a finding that departs significantly (P less than 0.01) from what would be expected to occur at random. Two other cloned repeats, from a reproductively isolated race of C. captiva, have sequences that show 56% identity with this 18-bp conserved region. An analysis showed that the frequency of occurrence of an RsaI recognition site within the 168- bp repeat in the entire Taq family agreed with that found in the cloned sequences. These data, along with a partial sequence for the entire Taq family obtained by sequencing uncloned repeats, suggest that the consensus sequence from the cloned copies is representative of this highly repeated family and is not a biased sample resulting from the cloning procedure. The 18-bp conserved sequence is part of a 42-bp sequence that possesses dyad symmetry typical of protein-binding sites. We speculate that this may be significant in the evolution of the Taq family of sequences.      

Length Variation in Mitochondrial DNA of the Minnow Cyprinella Spiloptera

Length differences in animal mitochondrial DNA (mtDNA) are common, frequently due to variation in copy number of direct tandem duplications. While such duplications appear to form without great difficulty in some taxonomic groups, they appear to be relatively short-lived, as typical duplication products are geographically restricted within species and infrequently shared among species. To better understand such length variation, we have studied a tandem and direct duplication of approximately 260 bp in the control region of the cyprinid fish, Cyprinella spiloptera. Restriction site analysis of 38 individuals was used to characterize population structure and the distribution of variation in repeat copy number. This revealed two length variants, including individuals with two or three copies of the repeat, and little geographic structure among populations. No standard length (single copy) genomes were found and heteroplasmy, a common feature of length variation in other taxa, was absent. Nucleotide sequence of tandem duplications and flanking regions localized duplication junctions in the phenylalanine tRNA and near the origin of replication. The locations of these junctions and the stability of folded repeat copies support the hypothesized importance of secondary structures in models of duplication formation.     

Dynamics of 5S rDNA in the tilapia (Oreochromis niloticus) genome: repeat units,inverted sequences,pseudogenes and chromosome loci

In higher eukaryotes, the 5S ribosomal DNA (5S rDNA) is organized in tandem arrays with repeat units composed of a coding region and a non-transcribed spacer sequence (NTS). These tandem arrays can be found on either one or more chromosome pairs. 5S rDNA copies from the tilapia fish, Oreochromis niloticus, were cloned and the nucleotide sequences of the coding region and of the non-transcribed spacer were determined. Moreover, the genomic organization of the 5S rDNA tandem repeats was investigated by fluorescence IN SITU hybridization (FISH) and Southern blot hybridization. Two 5S rDNA classes, one consisting of 1.4-kb repeats and another one with 0.5-kb repeats were identified and designated 5S rDNA type I and type II, respectively. An inverted 5S rRNA gene and a 5S rRNA putative pseudogene were also identified inside the tandem repeats of 5S rDNA type I. FISH permitted the visualization of the 5S rRNA genes at three chromosome loci, one of them consisting of arrays of the 5S rDNA type I, and the two others corresponding to arrays of the 5S rDNA type II. The two classes of the 5S rDNA, the presence of pseudogenes, and the inverted genes observed in the O. niloticus genome might be a consequence of the intense dynamics of the evolution of these tandem repeat elements.     

Molecular Characterization of Lengthy Mitochondrial DNA Duplications from the Parasitic Nematode Romanomermis Culicivorax

Complete nucleotide sequences, precise endpoints and coding potential of several 3.0-kilobase mitochondrial DNA (mtDNA) repeating units derived from two isofemale lineages of the mermithid nematode Romanomermis culicivorax have been determined. Endpoint analysis has allowed us to infer deletion and inversion events that most likely generated the present day repeat configuration. Each amplified unit contains the genes for NADH dehydrogenase subunits 3 and 6 (ND3 and ND6), an open reading frame (ORF 1) that represents a cytochrome P450-like gene, and three additional unidentified open reading frames. The primary nucleotide sequences of the R. culicivorax mt-repeat copies within individual haplotypes are highly conserved; three nearly complete copies of the repeat unit vary by 0.01% at the nucleotide level. These observations suggest that concerted evolution mechanisms may be active, resulting in sequence homogenation of these lengthy duplications.     

Identification and topology of variant sequences within individual repeat domains of the human epithelial tumor mucin MUC1

This study shows for the first time that the tandemly repeated icosapeptide of human MUC1 underlies a genetic sequence polymorphism at three positions (underlined): PDTRPAPGSTAPPAHGVTSA. The concerted replacement DT-->ES (sequence variation 1) and the single replacements P-->Q (sequence variation 2), P-->A (sequence variation 3), and P-->T (sequence variation 4) were identified by sequencing of polymerase chain reaction products and studied by minisatellite variant repeat analysis for their incidence and topology in the 5' and 3' peripheral regions of the variable number of tandem repeats domain. Minisatellite variant repeat analyses were performed with 27 individual samples of genomic DNA from human cells and tissues covering 30-60% of the domain. Within the peripheral regions, sequence variations 1-4 occur at high incidence and show a nearly constant repeat topology in all individual normal and tumor samples. Also, individuals who were non-Caucasian or of different ethnic background were found to have the same set of replacements with identical topology. The repeat variant 1 replacing the established tumor target motif DTR with ESR was found in all individuals and appears predominantly in repeat clusters (diads and triads). The largely constant topology of variant repeats is interpreted by the assumption that the variable number of tandem repeats domain has evolved as a recent expansion of sequence variable super-repeats.