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1.
Nucleotide sequence divergence in the A+T-rich region of mitochondrial DNA in Drosophila simulans and Drosophila mauritiana 总被引:3,自引:0,他引:3
We have determined the nucleotide sequences of two regions within the
A+T-rich region of mitochondrial DNA (mtDNA) in the siIII type of
Drosophila simulans and the maI type of D. mauritiana. The sequences of the
two regions in siIII and maI are almost identical. The sequences include
elements corresponding to the type I and type II repeats elements and the
T-stretches as reported in D. melanogaster; an approximately 340-bp region
(A region) adjacent to the tRNA(Ile) gene includes a part of the type II
repeat element, and an approximately 440- bp region (B region) includes a
central portion of the A+T-rich region between the type I and type II
repeat arrays. Each sequence of the two species was compared with those of
D. melanogaster and D. yakuba. The sequences of the A region are relatively
well conserved among the four species. The alignment of the two sequences
of the B region with those of D. melanogaster and D. yakuba requires
numerous insertions/deletions. For both regions, nucleotide differences
between D. simulans or D. mauritiana and D. melanogaster are similar to
those between the two and D. yakuba. The tendency is obvious in a subregion
within the type II repeat element in the A region. These findings suggest
that the rate of nucleotide substitution in the subregion is accelerated in
the lineage leading to D. melanogaster. Loss of functional constraint in
the stem-loop-forming sequence is proposed for this acceleration.
相似文献
2.
The molecular evolution of the alcohol dehydrogenase and alcohol dehydrogenase-related genes in the Drosophila melanogaster species subgroup 总被引:5,自引:0,他引:5
The DNA sequences of the Adh genes of three members of the Drosophila
melanogaster species subgroup have been determined. This completes the Adh
sequences of the eight species of this subgroup. Two species, D. yakuba and
D. teissieri, possess processed Adh pseudogenes. In all of the species of
the subgroup, a gene of unknown function, Adhr, is located about 300 bp 3'
to Adh. Although this gene is experiencing a higher rate of synonymous
substitution than Adh, it is more constrained at the amino acid level.
Phylogenetic relationships between all eight members of the melanogaster
subgroup have been analyzed using a variety of methods. All analyses
suggested that the D. yakuba and D. teissieri pseudogenes have a single
common ancestor, rather than evolving independently in each species, and
that D. melanogaster is the sister species to D. simulans, D. sechellia,
and D. mauritiana. The evolutionary relationships of the latter three
species remain equivocal.
相似文献
3.
The species divergence times and demographic histories of Drosophila melanogaster and its three sibling species, D. mauritiana, D. simulans, and D. yakuba, were investigated using a maximum likelihood (ML) method. Thirty-nine orthologous loci for these four species were retrieved from DDBJ/EMBL/GenBank database. Both autosomal and X-linked loci were used in this study. A significant degree of rate heterogeneity across loci was observed for each pair of species. Most loci have the GC content greater than 50% at the third codon position. The codon usage bias in Drosophila loci is considered to result in the high GC content and the heterogenous rates across loci. The chi-square, G, and Fisher's exact tests indicated that data sets with 11, 23, and 9 pairs of DNA sequences for the comparison of D. melanogaster with D. mauritiana, D. simulans, and D. yakuba, respectively, retain homogeneous rates across loci. We applied the ML method to these data sets to estimate the DNA sequence divergences before and after speciation of each species pair along with their standard deviations. Using 1.6 x 10(-8) as the rate of nucleotide substitutions per silent site per year, our results indicate that the D. melanogaster lineage split from D. yakuba approximately 5.1 +/- 0.8 million years ago (mya), D. mauritiana 2.7 +/- 0.4 mya, and D. simulans 2.3 +/- 0.3 mya. It implies that D. melanogaster became distinct from D. mauritiana and D. simulans at approximately the same time and from D. yakuba no earlier than 10 mya. The effective ancestral population size of D. melanogaster appears to be stable over evolutionary time. Assuming 10 generations per year for Drosophila, the effective population size in the ancestral lineage immediately prior to the time of species divergence is approximately 3 x 10(6), which is close to that estimated for the extant D. melanogaster population. The D. melanogaster did not encounter any obvious bottleneck during the past 10 million years. 相似文献
4.
Michel Solignac Monique Monnerot Jean-Claude Mounolou 《Journal of molecular evolution》1986,23(1):31-40
Detailed restriction maps (40 cleavage sites on average) of mitochondrial DNAs (mtDNAs) from the eight species of the melanogaster species subgroup of Drosophila were established. Comparison of the cleavage sites allowed us to build a phylogenetic tree based on the matrix of nucleotide distances and to select the most parsimonious network. The two methods led to similar results, which were compared with those in the literature obtained from nuclear characters. The three chromosomally homosequential species D. simulans, D. mauritiana, and D. sechellia are mitochondrially very related, but exhibit complex phylogenetic relationships. D. melanogaster is their closest relative, and the four species form a monophyletic group (the D. melanogaster complex), which is confirmed by the shared unusual length of their mt genomes (18-19 kb). The other four species of the subgroup (D. yakuba, D. teissieri, D. erecta, and D. orena) are characterized by a much shorter mt genome (16-16.5 kb). The monophyletic character of the D. yakuba complex, however, is questionable. Two species of this complex, D. yakuba and D. teissieri, are mitochondrially indistinguishable (at the level of our investigation) in spite of their noticeable allozymic and chromosomal divergence. Finally, mtDNA distances were compared with the nuclear-DNA distances thus far established. These sequences seem to evolve at rather similar rates, the mtDNA rate being barely double that of nuclear DNA. 相似文献
5.
Berloco M Fanti L Sheen F Levis RW Pimpinelli S 《Cytogenetic and genome research》2005,110(1-4):124-133
Drosophila melanogaster telomeres contain arrays of two non-LTR retrotransposons called HeT-A and TART. Previous studies have shown that HeT-A- and TART-like sequences are also located at non-telomeric sites in the Y chromosome heterochromatin. By in situ hybridization experiments, we mapped TART sequences in the h16 region of the long arm close to the centromere of the Y chromosome of D. melanogaster. HeT-A sequences were localized in two different regions on the Y chromosome, one very close to the centromere in the short arm (h18-h19) and the other in the long arm (h13-h14). To assess a possible heterochromatic location of TART and HeT-A elements in other Drosophila species, we performed in situ hybridization experiments, using both TART and HeT-A probes, on mitotic and polytene chromosomes of D. simulans, D. sechellia, D. mauritiana, D. yakuba and D. teissieri. We found that TART and HeT-A probes hybridize at specific heterochromatic regions of the Y chromosome in all Drosophila species that we analyzed. 相似文献
6.
Organization and Mapping of a Sequence on the DROSOPHILA MELANOGASTER X and Y Chromosomes That Is Transcribed during Spermatogenesis 总被引:14,自引:6,他引:8
Kenneth J. Livak 《Genetics》1984,107(4):611-634
The D. melanogaster DNA segment in the recombinant phage lambda Dm2L1 contains at least eight copies of a tandemly repeated 1250-base pair (bp) sequence (henceforth called the 2L1 sequence). Testes from XO D. melanogaster males contain an abundant 800-base RNA species that is homologous to a 520-bp region of the 2L1 sequence. Blotting experiments show that the 2L1 sequence is repeated in the D. melanogaster genome and is present on both the X and Y chromosomes. With the use of X-Y translocations, the 2L1 sequence has been mapped to a region between kl-1 and kl-2 on the long arm of the Y chromosome. In Oregon-R wild type there are an estimated 200 copies of the 2L1 sequence on the X chromosome and probably at least 80 copies of the Y chromosome. In some other strains the repetition frequency on the Y chromosome is about the same, but the copy number on the X chromosome is much reduced. On the basis of the five strains investigated, there is a correlation between copy number of the 2L1 sequence on the X chromosome and the presence of a particular allele of the Stellate locus (Ste; 1-45.7). It seems that low copy number corresponds to Ste+ and high copy number corresponds to Ste. The Ste locus determines whether single or star-shaped crystals are observed in the spermatocytes of XO males. Studies using D. simulans and D. mauritiana DNA show that the 2L1 sequence is homologous to restriction fragments in male DNA but not female DNA, indicating that this sequence is present only on the Y chromosome in these two species. In DNA derived from D. erecta, D. teissieri and D. yakuba, there is very little, if any, hybridization with the 2L1 sequence probe. 相似文献
7.
Drosophila focal adhesion kinase (Dfak) gene is a single-copy nuclear gene. Previous study revealed that Drosophila melanogaster and Drosophila simulans had lost an intron precisely within the tyrosine kinase (TyK) domain of this gene. However, this did not happen in several other Drosophila species, including Drosophila elegans, Drosophila ficusphila, Drosophila biarmipes, Drosophila jambulina, Drosophila prostipennis, Drosophila takahashii, and Drosophila pseudoobscura. In the current study, homologous sequences of Drosophila sechellia, Drosophila mauritiana, Drosophila yakuba, Drosophila teissieri, Drosophila santomea, and Drosophila erecta were amplified by polymerase chain reaction, and further sequencing analysis indicated that these species were missing a TyK domain intron, indicating they were closely related. The relationship of the D. melanogaster species group was reconstructed using TyK domain nucleotide sequences. The resulting phylogenetic tree revealed that these 8 species were the most related species in the melanogaster group. These results strongly support previously proposed classifications based on morphological and molecular data. 相似文献
8.
P. Santamaria 《Development genes and evolution》1975,178(1):89-98
Summary Interspecific chimeras have been produced by nuclear transplantation inDrosophila. The following species were used:Drosophila melanogaster, D. simulans, D. mauritiana, D. teissieri, D. yakuba, D. erecta andD. ananassae.Nuclei transplantated into fertilized eggs were able to multiply in a foreign cytoplasm and heterologous cells become integrated into the embryo to give viable adult chimeras.The morphological pattern of differentiation was autonomous both from that of the host and donor. In some cases, a possible non-compatibility between nuclei and cytoplasm has been postulated to explain the lack of chimeras. 相似文献
9.
Analysis of nucleotide substitutions of mitochondrial DNAs in Drosophila melanogaster and its sibling species 总被引:4,自引:0,他引:4
To study the rate and pattern of nucleotide substitution in mitochondrial
DNA (mtDNA), we cloned and sequenced a 975-bp segment of mtDNA from
Drosophila melanogaster, D. simulans, and D. mauritiana containing the
genes for three transfer RNAs and parts of two protein- coding genes, ND2
and COI. Statistical analysis of synonymous substitutions revealed a
predominance of transitions over transversions among the three species, a
finding differing from previous results obtained from a comparison of D.
melanogaster and D. yakuba. The number of transitions observed was nearly
the same for each species comparison, including D. yakuba, despite the
differences in divergence times. However, transversions seemed to increase
steadily with increasing divergence time. By contrast, nonsynonymous
substitutions in the ND2 gene showed a predominance of transversions over
transitions. Most transversions were between A and T and seemed to be due
to some kind of mutational bias to which the A + T-rich mtDNA of Drosophila
species may be subject. The overall rate of nucleotide substitution in
Drosophila mtDNA appears to be slightly faster (approximately 1.4 times)
than that of the Adh gene. This contrasts with the result obtained for
mammals, in which the mtDNA evolves approximately 10 times faster than
single-copy nuclear DNA. We have also shown that the start codon of the COI
gene is GTGA in D. simulans and GTAA in D. mauritiana. These codons are
different from that of D. melanogaster (ATAA).
相似文献
10.
Evolution of the A+T-rich region of mitochondrial DNA in the melanogaster species subgroup of Drosophila 总被引:2,自引:0,他引:2
Tsujino F Kosemura A Inohira K Hara T Otsuka YF Obara MK Matsuura ET 《Journal of molecular evolution》2002,55(5):573-583
We determined the nucleotide sequences of two regions in the A+T-rich region of mitochondrial DNA (mtDNA) in the siI and siII
types of D. simulans, the maII type of D. mauritiana, and D. sechellia. The sequences were aligned with those of the corresponding
regions of siIII of D. simulans and maI of D. mauritiana, D. melanogaster, and D. yakuba. The type I and type II elements
and the T-stretches were detected in all eight of the mtDNA types compared, indicating that the three elements are essential
in the A+T-rich region of this species subgroup. The alignment revealed several short repetitive sequences and relatively
large deletions in the central portions of the region. In the highly conserved sequence elements in the type II elements,
the substitution rates were not uniform among lineages and acceleration in the substitution rate might have been due to loss
of functional constraint in the stem–loop-forming sequences predicted in the type II elements. Patterns of nucleotide substitutions
observed in the A+T-rich region were further compared with those in the coding regions and in the intergenic regions of mtDNA.
Substitutions between A and T were particularly repressed in the highly conserved sequence elements and in the intergenic
regions compared with those in the A+T-rich region excluding the highly conserved sequence elements and in the fourfold degenerate
sites in the coding regions. The functional and structural characteristics of the A+T-rich region that might be involved in
this substitutional bias are discussed. 相似文献
11.
Kakita M Shimizu T Emoto M Nagai M Takeguchi M Hosono Y Kume N Ozawa T Ueda M Bhuiyan MS Matsuo Y 《Genes & genetic systems》2003,78(5):383-389
The repeating units of the histone gene cluster containing the H1, H2A, H2B and H4 genes were amplified by PCR from the Drosophila melanogaster species subgroup, i.e., D. yakuba, D. erecta, D. sechellia, D. mauritiana, D. teissieri and D. orena. The PCR products were cloned and their nucleotide sequences of about 4.6-4.8kbp were determined to elucidate the mechanism of molecular evolution of the histone gene family. The heterogeneity among the histone gene repeating units was 0.6% and 0.7% for D. yakuba and D. sechellia, respectively, indicating the same level of heterogeneity as in the H3 gene region of D. melanogaster. Divergence of the genes among species even in the most closely related ones was much greater than the heterogeneity among family members, indicating a concerted mode of evolution for the histone gene repeating units. Among the species in the D. melanogaster species subgroup, the histone gene regions as well as 3rd codon position of the coding region showed nearly the same GC contents. These results suggested that the previous conclusion on analysis of the H3 gene regions, the gene family evolution in a concerted fashion, holds true for the whole histone gene repeating unit. 相似文献
12.
13.
The 5S ribosomal genes in the Drosophila melanogaster species subgroup. Nucleotide sequence of a 5S unit from Drosophila simulans and Drosophila teissieri 总被引:3,自引:2,他引:1 下载免费PDF全文
The 5S genes of the eight species of the D. melanogaster subgroup have been mapped. The spacers, in contrast with coding regions, differ markedly between most species. One 5S gene unit has been sequenced for both D. simulans and D. teissieri. The mature 5S RNA region in these two species is identical to the corresponding region of D. melanogaster. Only 5 nucleotide variations occur between the D. melanogaster and D. simulans 5S gene spacers. The spacer in D. teissieri is very different. Only two segments, located one at each side of the coding region, are clearly homologous to corresponding sequences of D. melanogaster and D. simulans. 相似文献
14.
The distribution of the transposable element mariner was examined in the genus Drosophila. Among the eight species comprising the melanogaster species subgroup, the element is present in D. mauritiana, D. simulans, D. sechellia, D. yakuba and D. teissieri, but it is absent in D. melanogaster, D. erecta and D. orena. Multiple copies of mariner were sequenced from each species in which the element occurs. The inferred phylogeny of the elements and the pattern of divergence were examined in order to evaluate whether horizontal transfer among species or stochastic loss could better account for the discontinuous distribution of the element among the species. The data suggest that the element was present in the ancestral species before the melanogaster subgroup diverged and was lost in the lineage leading to D. melanogaster and the lineage leading to D. erecta and D. orena. This inference is consistent with the finding that mariner also occurs in members of several other species subgroups within the overall melanogaster species group. Within the melanogaster species subgroup, the average divergence of mariner copies between species was lower than the coding region of the alcohol dehydrogenase (Adh) gene. However, the divergence of mariner elements within species was as great as that observed for Adh. We conclude that the relative sequence homogeneity of mariner elements within species is more likely a result of rapid amplification of a few ancestral elements than of concerted evolution. The mariner element may also have had unequal mutation rates in different lineages. 相似文献
15.
The results of a comparative study of cloned DNA fragments of Drosophila simulans, D. mauritiana, D. teissieri, and D. erecta are presented. The fragments were amplified in PCR with primers specified to the region of D. melanogaster interband 61C7/C8. The uniqueness of all cloned fragments in the genomes of these species was confirmed. A comparative analysis of nucleotide sequences revealed that the rate of evolution of DNA from D. melanogaster interband 61C7/C8 is close to the rate of neutral evolution in the genus Drosophila. 相似文献
16.
Horizontal transmission, vertical inactivation, and stochastic loss of mariner-like transposable elements 总被引:13,自引:5,他引:8
Horizontal transmission has been well documented as a major mechanism for
the dissemination of mariner-like elements (MLEs) among species. Less well
understood are mechanisms that limit vertical transmission of MLEs
resulting in the "spotty" or discontinuous distribution observed in closely
related species. In this article we present evidence that the genome of the
common ancestor of the melanogaster species subgroup of Drosophila
contained an MLE related to the mellifera (honey bee) subfamily. Horizontal
transmission, approximately 3-10 MYA, is strongly suggested by the
observation that the sequence of the MLE in Drosophila erecta is 97%
identical in nucleotide sequence with that of an MLE in the cat flea,
Ctenocephalides felis. The D. erecta MLE has a spotty distribution among
species in the melanogaster subgroup. The element has a high copy number in
D. erecta and D. orena, a moderate copy number in D. teissieri and D.
yakuba, and was apparently lost ("stochastic loss") in the lineage leading
to D. melanogaster, D. simulans, D. mauritiana, and D. sechellia. In D.
erecta, most copies are concentrated in the heterochromatin. Two copies
from D. erecta, denoted De12 and De19, were cloned and sequenced, and they
appear to be nonfunctional ("vertical inactivation"). It therefore appears
that the predominant mode of MLE evolution is vertical inactivation and
stochastic loss balanced against occasional reinvasion of lineages by
horizontal transmission.
相似文献
17.
K Lineruth 《Genetica》1988,78(1):33-37
The protein synthesis pattern of a set of stage and tissue specific proteins has previously been described in Drosophila melanogaster. The analysis of this set of follicle cell proteins (Fc proteins) is here extended to cover several sibling species of Drosophila melanogaster, namely D. simulans, D. mauritiana, D. erecta and D. yakuba. Even though a similar set of proteins were synthesized in these species, minor differences in size of the proteins were found between the species. Some of the species exhibited variation within species. 相似文献
18.
19.
20.
Extensive diversity among Drosophila species with respect to nucleotide sequences within the adenine + thymine-rich region of mitochondrial DNA molecules. 总被引:6,自引:5,他引:1 下载免费PDF全文
Mitochondrial DNA (mtDNA) molecules from species of the genus Drosophila contain a region exceptionally rich in adenine + thymine (A+T). Using agarose gel electrophoresis and electron microscopy, we determined that in the mtDNA molecules of D. melanogaster, D. simulans, D. mauritiana, D. yakuba, D. takahashii, and D. virilis, the A+T-rich regions, which are 5.1, 4.8, 4.6, 1.1, 2.2, and 1.0 kilobase pairs in size, respectively, are at homologous locations relative to various common EcoRI and HindIII cleavage sites. Under conditions highly permissive for base pairing (35% formamide), heteroduplexes were constructed between EcoRI fragments and whole circular molecules of mtDNAs of the above mentioned six species in a variety of combinations. Complete pairing of molecules outside the A+T-rich region was found in all heteroduplexes examined. However, in contrast, A+T-rich regions of the different species failed to pair in all but those combinations of mtDNAs involving the three most closely related species. In heteroduplexes between D. melanogaster and D. simulans, and between D. melanogaster and D. mauritiana mtDNAs, up to 35% of the A+T-rich regions appeared double-stranded. These data indicate that much more extensive divergence of sequences has occurred in A+T-rich regions than in other regions of Drosophila mtDNA molecules. 相似文献