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1.
Proliferation of direct repeats near the Oenothera chloroplast DNA origin of replication 总被引:1,自引:0,他引:1
The spacer between the 16S and 23S rRNA genes of the chloroplast DNA has
been implicated as an origin of replication in several species of plants.
In the evening primrose, Oenothera, this site was found to vary greatly in
size, with plastid genomes (plastomes) being readily distinguished. To
determine whether plastome "strength" in transmission could be correlated
with variation at oriB, the 16S rRNA-trnI spacer was sequenced from five
plastomes. The size variation was found to be due to differential
amplification (and deletion) of combinations of sequences belonging to
seven families of direct repeats. From these comparisons, one short series
of direct repeats and one region capable of forming a hairpin structure
were identified as candidates for the factor that could be responsible for
the differences between strong and weak plastome types. Ample sequence
variation allowed phylogenetic inferences to be made about the
relationships among the plastomes. Phylogenetic trees also could be
constructed for most of the families of direct repeats. The amplifications
and deletions of repeats that account for the size variation at oriB are
proposed to have occurred through extensive replication slippage at this
site.
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2.
We have investigated the organisation, nucleotide sequence, and chromosomal distribution of a tandemly repeated, satellite DNA from Allium cepa (Liliaceae). The satellite, which constitutes about 4% of the A. cepa genome, may be resolved from main-band DNA in antibiotic-CsCl density gradients, and has a repeat length of about 375 base pairs (bp). A cloned member of the repeat family hybridises exclusively to chromosome telomeres and has a non-random distribution in interphase nuclei. We present the nucleotide sequences of three repeats, which differ at a large number of positions. In addition to arrays made up of 375-bp repeats, homologous sequences are found in units with a greater repeat length. This divergence between repeats reflects the heterogeneity of the satellite determined using other criteria. Possible constraints on the interchromosomal exchange of repeated sequences are discussed. 相似文献
3.
Two independent isolates of a Bordetella pertussis repeated DNA unit were sequenced and shown to be an insertion sequence element with five nucleotide differences between the two copies. The sequences were 1053 bp in length with near-perfect terminal inverted repeats of 28 bp, had three open reading frames, and were each flanked by short direct repeats. The two insertion sequences showed considerable homology to two other B. pertussis repeated DNA sequences reported recently: IS481 and a 530 bp repeated DNA unit. The B. pertussis insertion sequence would appear to comprise a group of closely related sequences differing mainly in flanking direct repeats and the terminal inverted repeats. The two isolates reported here, which were from the adenylate cyclase and agglutinogen 2 regions of the genome, were numbered IS48lvl and IS48lv2 respectively. 相似文献
4.
The very large amplifiable element AUD2 from Streptomyces lividans 66 has insertion sequence-like repeats at its ends.
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In a spontaneous, chloramphenicol-sensitive (Cms), arginine-auxotrophic (Arg-) mutant of Streptomyces lividans 1326, two amplified DNA sequences were found. One of them was the well-characterized 5.7-kb ADS1 sequence, amplified to about 300 copies per chromosome. The second one was a 92-kb sequence called ADS2. ADS2 encoding the previously isolated mercury resistance genes of S. lividans was amplified to around 20 copies per chromosome. The complete ADS2 sequence was isolated from a genomic library of the mutant S. lividans 1326.32, constructed in the phage vector lambda EMBL4. In addition, the DNA sequences flanking the corresponding amplifiable element called AUD2 in the wild-type strain were isolated by using another genomic library prepared from S. lividans 1326 DNA. Analysis of the ends of AUD2 revealed the presence of an 846-bp sequence on both sides repeated in the same orientation. Each of the direct repeats ended with 18-bp inverted repeated sequences. This insertion sequence-like structure was confirmed by the DNA sequence determined from the amplified copy of the direct repeats which demonstrated a high degree of similarity of 65% identity in nucleic acid sequence to IS112 from Streptomyces albus. The recombination event leading to the amplification of AUD2 occurred within these direct repeats, as shown by DNA sequence analysis. The amplification of AUD2 was correlated with a deletion on one side of the flanking chromosomal region beginning very near or in the amplified DNA. Strains of S. lividans like TK20 and TK21 which are mercury sensitive have completely lost AUD2 together with flanking chromosomal DNA on one or both sides. 相似文献
5.
Dean Dawson Becky Buckley Samuel Cartinhour Richard Myers Glenn Herrick 《Chromosoma》1984,90(4):289-294
The ciliated protozoa exhibit nuclear dimorphism. The genome of the somatic macronucleus arises from the germ-line genome of the micronucleus following conjugation. We have studied the fates of highly repetitious sequences in this process. Two cloned, tandemly repeated sequences from the micronucleus of Oxytricha fallax were used as probes in hybridizations to micronuclear and macronuclear DNA. The results of these experiments show: (1) the cloned repeats are members of two apparently unrelated repetitious sequence families, which each appear to comprise a few percent of the micronuclear genome, and (2) the amount of either family in the macronuclei from which our DNA was prepared is about 1/15 that found in an equal number of diploid micronuclei. Most, if not all, of the apparent macronuclear copies of these repeats can be accounted for by micronuclear contamination, which strongly suggests that these sequences are eliminated from the macronuclei and have no vegetiative function. 相似文献
6.
7.
Base sequence studies of 300 nucleotide renatured repeated human DNA clones 总被引:117,自引:0,他引:117
P L Deininger D J Jolly C M Rubin T Friedmann C W Schmid 《Journal of molecular biology》1981,151(1):17-33
A band of 300 nucleotide long duplex DNA is released by treating renatured repeated human DNA with the single strand-specific endonuclease S1. Since many of the interspersed repeated sequences in human DNA are 300 nucleotides long, this band should be enriched in such repeats. We have determined the nucleotide sequences of 15 clones constructed from these 300 nucleotide S1-resistant repeats. Ten of these cloned sequences are members of the Alu family of interspersed repeats. These ten sequences share a recognizable consensus sequence from which individual clones have an average divergence of 12.8%. The 300 nucleotide Alu family consensus sequence has a dimeric structure and was evidently formed from a head to tail duplication of an ancestral monomeric sequence. Three of the remaining clones are variations on a simple pentanucleotide sequence previously reported for human satellite III DNA. Two of the 15 clones have distinct and complex sequences and may represent other families of interspersed repeated sequences. 相似文献
8.
Organization and chromosomal specificity of autosomal homologs of human Y chromosome repeated DNA 总被引:6,自引:0,他引:6
Robert D. Burk Paul Szabo Steve O'Brien William G. Nash Lohchung Yu Kirby D. Smith 《Chromosoma》1985,92(3):225-233
The human Y chromosome contains a group of repeated DNA elements, identified as 3.4-kilobase pair (kb) fragments in Hae III digests of male genomic DNA, which contain both Y-specific and non-Y-specific sequences. We have used these 3.4-kb Hae III Y fragments to explore the organizational properties and chromosomal distribution of the autosomal homologs of the non-Y-specific (NYS) 3.4-kb Hae III Y elements. Three distinct organizations, termed domains, have been identified and shown to have major concentrations on separate chromosomes. We have established that domain K is located on chromosome 15 and domain D on chromosome 16 and suggested that domain R is on chromosome 1. Our findings suggest that each domain is composed of a tandemly arrayed cluster of a regularly repeating unit containing two sets of repeated sequences: one that is homologous to the NYS 3.4-kb Hae III Y sequences and one that does not cross-react with the 3.4-kb Hae III Y repeats. Thus, these autosomal repeated DNA domains, like their Y chromosome counterparts, consist of a complex mixture of repeated DNA elements interspersed among each other in ways that lead to defined periodicities. Although each of the three identified autosomal domains cross-reacts with 3.4-kb Hae III Y fragments purified from genomic DNA, the length periodicities and sequence content of the autosomal domains are chromosome specific. The organizational properties and chromosomal distribution of these NYS 3.4-kb Hae III homologs seem inconsistent with stochastic mechanisms of sequence diffusion between chromosomes. 相似文献
9.
The inverted repeated sequences (foldback DNA) of yeast nuclear DNA have been examined by electron microscopy and hydroxyapatite chromatography. Of the inverted repeat structures seen in the electron microscope, 34% were hairpins and 66% had a single stranded loop at the end of a duplex stem. The number average length of the repeat was 0.3 kb and the single stranded loop was 1.6 kb. It is estimated that there are approximately 250 inverted repeats per haploid genome. A statistical analysis of the frequency of molecules containing multiple inverted repeats showed that these sequences are non-randomly distributed. The distribution of inverted repeats was also examined by measuring the fraction of total DNA in the foldback fraction that bound to hydroxyapatite as a function of single strand fragment size. This analysis also indicated that the inverted repeats are clustered. Renaturation kinetic analysis of isolated foldback and inverted repeat stem sequence DNA showed that these sequences are enriched for repetitive DNA. 相似文献
10.
A high copy, tandemly repeated, sequence (Bd49) specific to the B chromosome and located near the centromere in Brachycome dichromosomatica was used to identify lambda genomic clones from DNA of a 3B plant. Only one clone of those analysed was composed entirely
of a tandem array of the B-specific repeat unit. In other clones, the Bd49 repeats were linked to, or interspersed with, sequences
that are repetitious and distributed elsewhere on the A and B chromosomes. One such repetitious flanking sequence has similarity
to retrotransposon sequences and a second is similar to chloroplast DNA sequences. Of the four separate junctions analysed
of Bd49-like sequence with flanking sequence, three were associated with the same A/T-rich region in Bd49 and the fourth was
close to a 25 bp imperfect dyadic sequence. No novel B-specific sequences were detected within the genomic clones.
Received: 31 December 1995; in revised form: 1 May 1996 / Accepted: 10 May 1996 相似文献
11.
The complete mitochondrial DNA (mtDNA) control region was cloned and sequenced in the musk shrew, Suncus murinus, Insectivora. The general aspect was similar to that found in other mammals. We have found in two locations of this region the presence of arrays of tandem repeats like those in other shrew species. One array was located in the left domain containing the termination-associated sequences (TAS) and the length of a copy was 77 bp. The other repeats were situated upstream from the recognition site for the end of H-strand replication in the right domain and were 20 bp long. The left halves of the control region containing the former repeats were sequenced and compared in several laboratory lines and wild animals from different localities, variations in copy number of repeated sequences were found both among individuals and within an individual. A comparative study of repeated sequences provides useful indication for the origin and evolution of tandem repeated sequences. Strand slippage and mispairing during replication of mtDNA with concerted manner is currently regarded as a dominant theory to account molecular mechanism for tandemly repeated sequences, and the pattern of sequence and length variation in our study supports this theory. Our results, however, suggest that the evolution of the repeated sequences containing the TAS in the musk shrew might go through the process of two steps; at the first step one complete repeated and several incomplete repeated sequences had reproduced in common ancestor of the shrew, and the second stage step-up of complete repeated sequences occurred with concerted evolution after differentiation into continental and insular groups. 相似文献
12.
R Holliday 《Journal of theoretical biology》1991,151(3):351-358
It is well-known that most genetic variation affects quantitative traits, and natural or artificial selection can act to change quantitative features of organisms more rapidly than qualitative ones. Surprisingly, variability is not confined to outbred species, but also occurs in inbred mice at a much higher rate than expected from known mutation rates. The size and shape of organisms and their constituent parts are, at least in part, controlled by the number of cell divisions, and there is published evidence for the existence of developmental clocks, which may count cell divisions. A molecular model for a developmental clock was previously proposed. It depends on the DNA methylation of repeated sequences of DNA, where the methylation of each additional sequence is tied to DNA synthesis and therefore cell division. The number of repeats specifies the number of divisions which will occur before a signal is produced which can activate or inactivate one or more genes. It is known that crossing over occurs between sister chromatids, and where tandemly repeated sequences occur unequal exchange can generate a larger or smaller number of repeats. An example of this is seen in the well-known variability of "minisatellite" sequences in human DNA. Unequal sister chromatid exchange can occur in mitotic and meiotic cells in the germ line, and in the case of developmental clock sequences could generate variation in clock length which in turn would directly affect quantitative traits. These events can be regarded as a special case of molecular drive during evolution. 相似文献
13.
Repetitive DNA and chromosome evolution in plants 总被引:32,自引:0,他引:32
R B Flavell 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》1986,312(1154):227-242
Most higher plant genomes contain a high proportion of repeated sequences. Thus repetitive DNA is a major contributor to plant chromosome structure. The variation in total DNA content between species is due mostly to variation in repeated DNA content. Some repeats of the same family are arranged in tandem arrays, at the sites of heterochromatin. Examples from the Secale genus are described. Arrays of the same sequence are often present at many chromosomal sites. Heterochromatin often contains arrays of several unrelated sequences. The evolution of such arrays in populations is discussed. Other repeats are dispersed at many locations in the chromosomes. Many are likely to be or have evolved from transposable elements. The structures of some plant transposable elements, in particular the sequences of the terminal inverted repeats, are described. Some elements in soybean, antirrhinum and maize have the same inverted terminal repeat sequences. Other elements of maize and wheat share terminal homology with elements from yeast, Drosophila, man and mouse. The evolution of transposable elements in plant populations is discussed. The amplification, deletion and transposition of different repeated DNA sequences and the spread of the mutations in populations produces a turnover of repetitive DNA during evolution. This turnover process and the molecular mechanisms involved are discussed and shown to be responsible for divergence of chromosome structure between species. Turnover of repeated genes also occurs. The molecular processes affecting repeats imply that the older a repetitive DNA family the more likely it is to exist in different forms and in many locations within a species. Examples to support this hypothesis are provided from the Secale genus. 相似文献
14.
Exact Tandem Repeats Analyzer 1.0 (E-TRA) combines sequence motif searches with keywords such as ‘organs’, ‘tissues’, ‘cell
lines’ and ‘development stages’ for finding simple exact tandem repeats as well as non-simple repeats. E-TRA has several advanced
repeat search parameters/options compared to other repeat finder programs as it not only accepts GenBank, FASTA and expressed
sequence tags (EST) sequence files, but also does analysis of multiple files with multiple sequences. The minimum and maximum
tandem repeat motif lengths that E-TRA finds vary from one to one thousand. Advanced user defined parameters/options let the
researchers use different minimum motif repeats search criteria for varying motif lengths simultaneously. One of the most
interesting features of genomes is the presence of relatively short tandem repeats (TRs). These repeated DNA sequences are
found in both prokaryotes and eukaryotes, distributed almost at random throughout the genome. Some of the tandem repeats play
important roles in the regulation of gene expression whereas others do not have any known biological function as yet. Nevertheless,
they have proven to be very beneficial in DNA profiling and genetic linkage analysis studies. To demonstrate the use of E-TRA,
we used 5,465,605 human EST sequences derived from 18,814,550 GenBank EST sequences. Our results indicated that 12.44% (679,800)
of the human EST sequences contained simple and non-simple repeat string patterns varying from one to 126 nucleotides in length.
The results also revealed that human organs, tissues, cell lines and different developmental stages differed in number of
repeats as well as repeat composition, indicating that the distribution of expressed tandem repeats among tissues or organs
are not random, thus differing from the un-transcribed repeats found in genomes. 相似文献
15.
Localization and sequence analysis of chloroplast DNA sequences of Chlamydomonas reinhardii that promote autonomous replication in yeast 总被引:10,自引:0,他引:10
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Four distinct chloroplast DNA segments from Chlamydomonas reinhardii of 400, 415, 730 and 2300 bp which promote autonomous replication in yeast have been mapped on the chloroplast genome. Plasmids carrying these chloroplast DNA fragments are unstable in yeast when the cells are grown under non-selective conditions. Sequence analysis of three of these chloroplast ARS regions (autonomously replicating sequences in yeast) reveals a high AT content, numerous short direct and inverted repeats and the presence of at least one element in each region that is related to the yeast ARS consensus sequence. A/T TTTATPuTTT A/T. These three chloroplast regions share, in addition, two common elements of 10 and 11 bp which may play a role in promoting autonomous replication. 相似文献
16.
17.
Origin and evolution of homologous repeated sequences in the mitochondrial DNA control region of shrews 总被引:14,自引:3,他引:11
The complete mitochondrial DNA (mtDNA) control region was amplified and
directly sequenced in two species of shrew, Crocidura russula and Sorex
araneus (Insectivora, Mammalia). The general organization is similar to
that found in other mammals: a central conserved region surrounded by two
more variable domains. However, we have found in shrews the simultaneous
presence of arrays of tandem repeats in potential locations where repeats
tend to occur separately in other mammalian species. These locations
correspond to regions which are associated with a possible interruption of
the replication processes, either at the end of the three-stranded D-loop
structure or toward the end of the heavy-strand replication. In the left
domain the repeated sequences (R1 repeats) are 78 bp long, whereas in the
right domain the repeats are 12 bp long in C. russula and 14 bp long in S.
araneus (R2 repeats). Variation in the copy number of these repeated
sequences results in mtDNA control region length differences. Southern blot
analysis indicates that level of heteroplasmy (more than one mtDNA form
within an individual) differs between species. A comparative study of the
R2 repeats in 12 additional species representing three shrew subfamilies
provides useful indications for the understanding of the origin and the
evolution of these homologous tandemly repeated sequences. An asymmetry in
the distribution of variants within the arrays, as well as the constant
occurrence of shorter repeated sequences flanking only one side of the R2
arrays, could be related to asymmetry in the replication of each strand of
the mtDNA molecule. The pattern of sequence and length variation within and
between species, together with the capability of the arrays to form stable
secondary structures, suggests that the dominant mechanism involved in the
evolution of these arrays in unidirectional replication slippage.
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18.
Repetitive satellite-like sequences are present within or upstream from 3 avian protein-coding genes. 总被引:10,自引:6,他引:4
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Peculiar DNA sequences made up by the tandem repetition of a 5 bp unit have been identified within or upstream from three avian protein-coding genes. One sequence is located within an intron of the chicken "ovalbumin-X" gene with 5'-TCTCC-3' as basic repeat unit (36 repeats). Another sequence made of 27 repeats of a 5'-GGAAG-3' basic unit is found 2500 base pairs upstream from the promoter of the chicken ovotransferrin (conalbumin) gene. A related but different sequence is present in the corresponding region of the ovotransferrin gene in the pheasant, with 5'-GGAAA-3' as the basic unit (55 repeats). These three satellite-like elements are thus characterized by a total assymetry in base distribution, with purines restricted to one strand, and pyrimidines to the other. Two of the basic repeat units can be derived from the third one (GGAAA) by a single base pair change. These related sequences are found repeated in three avian genomes, at degrees which vary both with the sequence type and the genome type. Evolution of tandemly repeated sequences (including satellites) is in general studied by analysing randomly picked elements. The presence of conserved protein-coding regions neighbouring satellite-like sequences allow to follow their evolution at a single locus, as exemplified by the striking comparison of the pheasant and chicken sequences upstream from the ovotransferrin gene. 相似文献
19.
Interruption of a human nuclear sequence homologous to mitochondrial DNA by a member of the KpnI 1.8 kb family. 总被引:8,自引:4,他引:4
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We reported that several DNA sequences homologous to mitochondrial DNA (mtDNA) are present in the human nuclear genome (Tsuzuki et al. (1983) Gene 25, 223-229). Detailed Southern blot analyses revealed that one of such sequences is interrupted by a repetitive sequence about 1.8 kb long, and that the insert is one member of the dispersed repeated DNA sequences of the KpnI 1.8 kb family. Nucleotide sequence analysis showed that the KpnI 1.8 kb DNA is flanked with imperfect 15-base pair (bp) direct repeats of mtDNA. This KpnI 1.8 kb DNA has an A-rich sequence at its 3'-end, and has a considerable homology with one of the published cDNA sequences homologous to one of the human KpnI families and also to one of the African green monkey KpnI families, KpnI-LS1. These structural features suggest that the KpnI 1.8 kb DNA is a movable element and is inserted within the mtDNA-like sequence by an RNA-mediated process. 相似文献
20.
Chung SM Staub JE 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2003,107(4):757-767
Although universal or consensus chloroplast primers are available, they are limited by their number and genomic distribution. Therefore, a set of consensus chloroplast primer pairs for simple sequence repeats (ccSSRs) analysis was constructed from tobacco (Nicotiana tabacum L.) chloroplast sequences. These were then tested for their general utility in the genetic analysis of a diverse array of plant taxa. In order to increase the number of ccSSRs beyond that previously reported, the target sequences for SSR motifs was set at A or T (n 7) mononucleotide repeats. Each SSR sequence motif, along with ±200-bp flanking sequences from the first of each mononucleotide base repeat, was screened for homologies with chloroplast DNA sequences of other plant species in GenBank databases using BLAST search procedures. Twenty three putative marker loci that possessed conserved flanking sequence spans were selected for consensus primer pair construction using commercially available computer algorithms. All primer pairs produced amplicons after PCR employing genomic DNA from members of the Cucurbitaceae (six species) and Solanaceae (four species). Sixteen, 22 and 19 of the initial 23 primer pairs were successively amplified by PCR using template DNA from species of the Apiaceae (two species), Brassicaceae (one species) and Fabaceae (two species), respectively. Twenty of 23 primer pairs were also functional in three monocot species of the Liliaceae [onion (Allium cepa L.) and garlic (Allium sativum L.)], and the Poaceae [oat (Avena sativa L.)]. Sequence analysis of selected ccSSR fragments suggests that ccSSR length and sequence variation could be useful as a tool for investigating the genetic relationships within a genus or closely related taxa (i.e., tribal level). In order to provide for a marker system having significant coverage of the cucumber chloroplast genome, ccSSR primers were strategically "recombined" and named recombined consensus chloroplast primers (RCCP) for PCR analysis. Successful amplification after extended-length PCR of 16 RCCP primer pairs from cucumber (Cucumis sativus L.) DNA suggested that the amplicons detected are representative of the cucumber chloroplast genome. These RCCP pairs, therefore, could be useful as an initial molecular tool for investigation of traits related to a chloroplast gene(s) in cucumber, and other closely related species.Communicated by C. Möllers 相似文献