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1.
Sequence analysis of bovine satellite I DNA (1.715 gm/cm3).   总被引:4,自引:1,他引:3       下载免费PDF全文
The 1402 bp Eco RI repeating unit of bovine satellite I DNA (rho CsCl = 1.715 gm/cm3) has been cloned in pBR322. The sequence of this cloned repeat has been determined and is greater than 97% homologous to the sequence reported for another clone of satellite I (48) and for uncloned satellite I DNA (49). The internal sequence structure of the Eco RI repeat contains imperfect direct and inverted repeats of a variety of lengths and frequencies. The most outstanding repeat structures center on the hexanucleotide CTCGAG which, at a stringency of greater than 80% sequence homology, occurs at 26 locations within the RI repeat. Two of these 6 bp units are found within the 31 bp consensus sequence of a repeating structure which spans the entire length of the 1402 bp repeat (49). The 31 bp consensus sequence contains an internal dodecanucleotide repeat, as do the consensus sequences of the repeat units determined for 3 other bovine satellite DNAs (rho CsCl = 1.706, 1.711a, 1.720 gm/cm3). Based on this evidence, we present a model for the evolutionary relationship between satellite I and the other bovine satellites.  相似文献   

2.
The Eco RI fragments from the 2600 bp repeating unit of 1.711b gm/Cm(3) bovine satellite DNA were cloned in pBR322. The structure of the repeat unit was determined and compared to bovine satellite I DNA (rho CsCl = 1.715 gm/cm(3)). All of the DNA in the 1402 bp repeat of satellite I is represented in the sequence of the 2600 bp 1.711b gm/cm(3) repeat. The difference between the two repeats is due to a 1200 bp piece of DNA (INS) residing in the middle of the 1.711b gm/cm(3) repeat. The INS is AT-rich and has some repetitive components; it bears only limited similarity to the structure of eukaryotic transposable elements. We propose that the 1.711b gm/cm(3) satellite DNA arose via the amplification of a 1.715 gm/cm(3) satellite repeat altered by a 1200 bp insertion of DNA.  相似文献   

3.
The lower amount of 5 methylcytosine in DNA from bull sperm relative to DNA of other bovine tissues is a result of the absence of this minor base from several of the satellite DNAs in sperm. This applies particularly to the 1.715, 1.711b and 1.709 satellites and less so to the 1.706 and 1.711a satellites. Mouse sperm DNA is also partially undermethylated.  相似文献   

4.
Patchwork structure of a bovine satellite DNA   总被引:25,自引:0,他引:25  
M Pech  R E Streeck  H G Zachau 《Cell》1979,18(3):883-893
According to a previous restriction nuclease analysis, bovine 1.706 satellite DNA (density 1.706 g/cm3 in CsCl) is organized in an unusual structure of superimposed long- and short-range repeats (Streeck and Zachau, 1978). We have now determined the nucleotide sequence of this satellite DNA in both cloned fragments and fragments from the total satellite DNA. Each long-range repeat unit (about 2350 bp) is divided into four segments. Each segment consists of different variants of a basic 23 bp sequence which is itself composed of a dodecanucleotide and a related undecanucleotide. A total of 2400 nucleotides have been sequenced. Detailed analysis of the sequence divergence reveals that both the overall extent of divergence and the frequency of base changes at individual positions of the 23 bp repeats are characteristically different in the various segments. Preferentially methylated sites and a high incidence of symmetry elements are found. In two of the four segments, 22 of 23 bp of the prototype sequence are included in six overlapping elements of dyad symmetry and in a palindrome. A scheme for the evolution of the satellite DNA from a basic dodecanucleotide is proposed which is based on the different degrees of divergence for the various repeats superimposed in this satellite DNA.  相似文献   

5.
The nucleotide sequence of a cloned Muntjak satellite IA repeat unit (Muntiacus muntjak vaginalis) was determined. The repeat is 807 base pairs (bp) long. By introducing minor deletions and insertions, the whole sequence of the satellite can be arranged in 27 subrepeats of 31 bp length. Although diverged relative to each other, all subrepeats show a homology of more than 53% with the common consensus sequence. In 29 out of the 31 bp the consensus sequence of the Muntjak satellite subrepeat is identical to the 31-bp subrepeat of the bovine satellite 1.715. This suggests that both satellites are derived from a common ancestral sequence. The results have interesting implications for the evolution of the two satellites.  相似文献   

6.
The cattle genome contains several distinct centromeric satellites with interrelated evolutionary histories. We compared these satellites in Bovini species that diverged 0.2 to about 5 Myr ago. Quantification of hybridization signals by phosphor imaging revealed a large variation in the relative amounts of the major satellites. In the genome of water buffalo this has led to the complete deletion of satellite III. Comparative sequencing and PCR-RFLP analysis of satellites IV, 1.711a, and 1.711b from the related Bos and Bison species revealed heterogeneities in 0.5 to 2% of the positions, again with variations in the relative amounts of sequence variants. Restriction patterns generated by double digestions suggested a recombination of sequence variants. Our results are compatible with a model of the life history of satellites during which homogeneity of interacting repeat units is both cause and consequence of the rapid turnover of satellite DNA. Initially, a positive feedback loop leads to a rapid saltatory amplification of homogeneous repeat units. In the second phase, mutations inhibit the interaction of repeat units and coexisting sequence variants amplify independently. Homogenization by the spreading of one of the variants is prevented by recombination and the satellite is eventually outcompeted by another, more homogeneous tandem repeat sequence. Received: 21 July 2000 / Accepted: 30 October 2000  相似文献   

7.
Six highly repeated DNA families were analyzed using Southern blotting and fluorescence in situ hybridization in a comparative study of 46 species of artiodactyls belonging to seven of the eight extant taxonomic families. Two of the repeats, the dispersed bovine-Pst family and the localized 1.715 component, were found to have the broadest taxonomic distributions, being present in all pecoran ruminants (Giraffidae, Cervidae, Antilocapridae, and Bovidae), indicating that these repeats may be 25–40 million years old. Different 1.715 restriction patterns were observed in different taxonomic families, indicating that independent concerted evolution events have homogenized different motifs in different lineages. The other four satellite arrays were restricted to the Bovini and sometimes to the related Boselaphini and Tragelaphini. Results reveal that among the two compound satellites studied, the two components of the 1.711a originated simultaneously, whereas the two components of the 1.711b originated at two different historical times, perhaps as many as 15 million years apart. Systematic conclusions support the monophyly of the infraorder Pecora, the monophyly of the subfamily Bovinae (containing the Boselaphini, Bovini, and Tragelaphini), an inability to resolve any interrelationships among the other tribes of bovids, paraphyly of the genus Bos with respect to Bison, and a lack of molecular variation among two morphologically and ecologically distinct subspecies of African buffaloes (Syncerus caffer cafer and S. c. nanus). Cytogenetically, a reduction in diploid chromosome numbers through centric fusion in derived karyotypes is accompanied by a loss of centromeric satellite DNA. The nilgai karyotype contains an apparent dicentric chromosome as evidenced by the sites of 1.715 hybridization. Telomeric sequences have been translocated to the centromeres without concomitant chromosomal rearrangement in Thompson's gazelle. Received: 18 June 1995 / Accepted: 1 September 1995  相似文献   

8.
Bovine 1.720 satellite DNA (density in CsCl, 1.720 g/cm3) consists of a tandem array of 46 base-pair-repeat units without a detectable higher-order periodicity. About 80% of the satellite DNA is cleaved by AluI into a 46 base-pair fragment which has been isolated and sequenced. The sequence determined exhibits a very high homology to the 23 base-pair prototype sequence of bovine 1.706 satellite DNA (Pech et al., 1979) indicating a common origin of the two satellites. The 46 base-pairrepeat unit of the 1.720 satellite is composed of two related 23 base-pair sequences both of which are largely self-complementary. The entire 1.720 satellite DNA can be considered to be an imperfect palindrome.  相似文献   

9.
The nucleotide sequence of the principal component of ovine 1.714 g/cm3 satellite DNA was determined from a monomeric fragment inserted at the BamHI site of pBR322 and cloned in Escherichia coli strain RR1. The 816-bp tandemly repeated sequence contains a number of small repeated sequences dispersed within it, one group of which forms a pentameric tandem repeat of a 13-bp segment (positions 548-612). A 20-bp region (60-79) shows an 85% homology with the reverse-complement of the sequence from 455 through 474. There are two regions of 67 bp (75-141) and 59 bp (755-813) which show greater than 70% homology with regions of bovine 1.715 g/cm3 satellite DNA (1402 bp; positions 1218-1284 and 1079-1137, respectively) while a 31-bp region (ovine 62-92, bovine 133-163) shows 80% homology. Quasi-correlation coefficients (Qr) were determined using the triplet numbers of the sheep satellite versus all sequences in the National Biomedical Research Foundation and EMBL nucleotide sequence data bases. Qr equals 0.85 for ovine 1.714 g/cm3 satellite versus bovine 1.715 g/cm3 satellite. The next highest Qr for a bovine satellite segment was 0.58. Thus, the ovine 1.714 g/cm3 and bovine 1.715 g/cm3 satellite appear demonstrably related. Taking into account that sheep and cattle diverged 18-20 million years ago, this suggests that the material may be functional and that its function is related to its sequence.  相似文献   

10.
11.
The nucleotide sequence of the 3' long terminal repeat and adjacent viral and host sequences was determined for a bovine leukemia provirus cloned from a bovine tumor. The long terminal repeat was found to comprise 535 nucleotides and to harbor at both ends an imperfect inverted repeat of 7 bases. Promoter-like sequences (Hogness box and CAT box), an mRNA capping site, and a core enhancer-related sequence were tentatively located. No kinship was detected between this bovine leukemia proviral fragment and other retroviral long terminal repeats, including that of human T-cell leukemia virus.  相似文献   

12.
The nucleotide sequences of a series of cloned repeats of the bovine satellite DNA I have been established and compared to the average sequence already determined by the other workers. Variations, which are essentially single base changes, deletions or additions, are found within clustered copies and, thus, define subfractions and domains of the satellite DNA. These results are confirmed by restriction enzyme analysis of the cloned repeats or of the total purified satellite DNA. These subfractions are essentially overlapping. Certain short regions of the DNA repeat do not appear to be involved in the changes, which are spread in a concerted way through the whole bovine karyotype. The significance of these results is discussed in the light of the recent suggestion made that gene conversion-like events are susceptible to introduce homogeneity of polymorphism within the elements of repeated families of DNA sequences.  相似文献   

13.
The repetitive sequence PisTR-A has an unusual organization in the pea (Pisum sativum) genome, being present both as short dispersed repeats as well as long arrays of tandemly arranged satellite DNA. Cloning, sequencing and FISH analysis of both PisTR-A variants revealed that the former occurs in the genome embedded within the sequence of Ty3/gypsy-like Ogre elements, whereas the latter forms homogenized arrays of satellite repeats at several genomic loci. The Ogre elements carry the PisTR-A sequences in their 3′ untranslated region (UTR) separating the gag-pol region from the 3′ LTR. This region was found to be highly variable among pea Ogre elements, and includes a number of other tandem repeats along with or instead of PisTR-A. Bioinformatic analysis of LTR-retrotransposons mined from available plant genomic sequence data revealed that the frequent occurrence of variable tandem repeats within 3′ UTRs is a typical feature of the Tat lineage of plant retrotransposons. Comparison of these repeats to known plant satellite sequences uncovered two other instances of satellites with sequence similarity to a Tat-like retrotransposon 3′ UTR regions. These observations suggest that some retrotransposons may significantly contribute to satellite DNA evolution by generating a library of short repeat arrays that can subsequently be dispersed through the genome and eventually further amplified and homogenized into novel satellite repeats.  相似文献   

14.
Summary Another satellite DNA repeat (type IV) in the genome of Cucumis sativus (cucumber) was found and investigated with respect to DNA sequence, methylation, and evolution. This satellite shows a repeat length of 360 bp and a GC-content of 47%. The repeats of type IV are highly conserved among each other. Evidence for CG and CNG methylation is presented. By comparison to the previously described satellites (type I/II and type III) from cucumber, it is evident that this repeat is created by an insertion of a 180 bp DNA sequence similar to type I–III into another DNA sequence (or vice versa), and subsequent amplification forming a new satellite repeat. The different satellites of the type I/II, type III, and the 180 bp insert of type IV show a sequence homology of 60%–70%, indicating that the complex satellite DNA of cucumber is originated from a common progenitor by mutation, additional insertion, and amplification events. Copies of a sequence similar to a part of type IV are present in the genome of the related species Cucumis melo (melon).  相似文献   

15.
The early phylogeny of the 137 species in the Bovidae family is difficult to resolve; knowledge of the evolution and relationships of the tribes would facilitate comparative mapping, understanding chromosomal evolution patterns and perhaps assist breeding and domestication strategies. We found that the study of the presence and organization of two repetitive DNA satellite sequences (the clone pOaKB9 from sheep, a member of the 1.714 satellite I family and the pBtKB5, a 1.715 satellite I clone from cattle) on the X and autosomal chromosomes by in situ hybridization to chromosomes from 15 species of seven tribes, was informative. The results support a consistent phylogeny, suggesting that the primitive form of the X chromosome is acrocentric, and has satellite I sequences at its centromere. Because of the distribution of the ancient satellite I sequence, the X chromosome from the extant Tragelaphini (e.g. oryx), rather than Caprini (sheep), line is most primitive. The Bovini (cow) and Tragelaphini tribes lack the 1.714 satellite present in the other tribes, and this satellite is evolutionarily younger than the 1.715 sequence, with absence of the 1.714 sequence being a marker for the Bovini and Tragelaphini tribes (the Bovinae subfamily). In the other tribes, three (Reduncini, Hippotragini and Aepycerotini) have both 1.714 and 1.715 satellite sequences present on both autosomes and the X chromosome. We suggest a parallel event in two lineages, leading to X chromosomes with the loss of 1.715 satellite from the Bovini, and the loss of both 1.714 and 1.715 satellites in a monophyletic Caprini and Alcelaphini lineage. The presence and X chromosome distribution of these satellite sequences allow the seven tribes to be distributed to four groups, which are consistent with current diversity estimates, and support one model to resolve points of separation of the tribes.  相似文献   

16.
We describe satellite DNA variation that detects hybridization of Bos indicus (zebu or indicine cattle) and Bos taurus (taurine cattle) in African cattle populations. On Southern blots hybridized to a satellite III probe, relative intensities of Hinfl fragments correlated with the taurine-zebu composition in hybrid animals as deduced from AFLP genotyping of the same animals and previous data on microsatellite allele frequencies. Similar results were obtained by PCR-RFLP analysis of a zebu-specific mutation in the repeat unit of satellite 1.711b. Analysis of individuals from 20 African cattle breeds indicate that the centromeric satellites of the sanga breeds are of the taurine type and that several East-African zebu breeds are hybrids between taurine and zebu. These satellite RFLP, or SFLP, markers provide a fast method to screen the genetic makeup of African cattle.  相似文献   

17.
18.
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   

19.
The spread of sequence variants in Rattus satellite DNAs   总被引:2,自引:1,他引:1       下载免费PDF全文
The genus Rattus has two related families of satellite DNA: Satellite I consists of tandem arrays of a 370 base pair repeat unit which is a dimer of two 185 base pair portions (a, b) which are about 60% homologous. Satellite I' consists of tandem arrays of a 185 base pair repeat unit (a') which is about 85% homologous to a and 60% homologous to b. R. norvegicus contains only satellite I but R. rattus contains both satellites I and I'. We examined certain aspects of satellite DNA evolution by comparing the spacing at which variant repeat units of each satellite have spread among non-variant repeat units in these two species. With but one exception, in R. rattus, 15 different variant repeat units have spread among non-variant repeat units of satellite I, with a spacing equal to the length of the (a,b) dimer. Similarly, fourteen different variant repeat units of the monomeric satellite I' have mixed among non-variant repeat units with a spacing equal to the length of the (a') monomer. These results suggest that a mechanism involving homologous interaction among satellite sequences could account for the spread of variant family members. We also found that a sequence variant present in certain portions of the dimeric repeat unit of satellite I is more efficiently amplified (or less efficiently corrected) than variants occurring in other regions. This was not true for the monomeric repeat unit of satellite I'.  相似文献   

20.
Satellite DNA profiles have been characterized in the congeneric species Palorus ratzeburgii, Palorus subdepressus, Palorus genalis, and Palorus ficicola (Coleoptera, Insecta), each of which contains a single, A + T-rich satellite DNA comprising a considerable portion of the genome (20%-40%). These satellites exhibit insignificant mutual sequence similarity. Using PCR assay, it has been shown that all four sequences are present in each of the tested Palorus species: one of them is amplified into a high copy number or a major satellite, while the three others are in the form of low-copy-number repeats estimated to make up approximately 0.05% of the genome. Each of the four satellites is interspecifically high conserved concerning the sequence, monomer length, and tandem repeat organization. Major, as well as low- copy-number, satellites are colocalized in the regions of pericentromeric heterochromatin on all chromosomes of the complement. The low-copy-number satellites are dispersed between the large arrays of the major satellite over the whole heterochromatic block. Our results explain satellite DNA evolution, confirming the hypothesis that related species share a "library" of conserved satellite sequences, some of which could be amplified into a major satellite. Due to the evolutionary dynamics of satellite DNAs, the content of the "library" is variable; the elimination of some sequences parallels the creation of the new ones. Quantitative changes in satellite DNAs, induced by occasional amplification of satellite repeat from the "library", could possibly occur in the course of the speciation process, thus forming a species-specific profile of satellite DNAs.   相似文献   

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