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1.
Goulielmos GN Cosmidis N Loukas M Tsakas S Zouros E 《Journal of molecular evolution》2001,52(1):29-39
We report the cloning and structural characterization of two Adh loci of the olive fruit fly, Bactrocera oleae. Each of the two genes, named Adh1 and Adh2, consists of three exons and two introns for a total length of 1981 and 988 nucleotides, respectively. Their deduced amino
acid sequences of 257 and 258 residues exhibit a 77% identity and display the characteristics of the insect ADH enzymes, which
belong to the short-chain dehydrogenases/reductases family. The Adh genes of B. oleae are compared to the two genes of the Mediterranean fly, Ceratitis capitata, the only other species of the Tephritidae family in which the Adh genes have been studied. On the basis of amino acid divergence the four genes form two clusters each containing one gene
from each species, as expected if there was one duplication event before speciation. On the basis of nucleotide sequence the
four sequences form two clusters each containing the two sequences from the same species, as expected if there was a separate
duplication event in each species. To help decide between the two alternatives, we compared at both the amino acid and DNA
level the Adh genes of five Drosophila species that are known to carry two such genes and observed that, with only one exception at the amino acid level, conspecific
loci cluster together. We conclude that the information we have at present does not allow a firm choice between the hypothesis
of a single duplication event that occurred before the split of Bactrocera and Ceratitis from their common ancestor and the hypothesis of two independent duplication events, one in each of the two genera.
Received: 30 May 2000 / Accepted: 17 August 2000 相似文献
2.
Sawada H Kanaya S Tsuda M Suzuki F Azegami K Saitou N 《Journal of molecular evolution》2002,54(4):437-457
Phytopathogenic Pseudomonas syringae is subdivided into about 50 pathovars due to their conspicuous differentiation with regard to pathogenicity. Based on the
results of a phylogenetic analysis of four genes (gyrB, rpoD, hrpL, and hrpS), Sawada et al. (1999) showed that the ancestor of P. syringae had diverged into at least three monophyletic groups during its evolution. Physical maps of the genomes of representative
strains of these three groups were constructed, which revealed that each strain had five rrn operons which existed on one circular genome. The fact that the structure and size of genomes vary greatly depending on the
pathovar shows that P. syringae genomes are quite rich in plasticity and that they have undergone large-scale genomic rearrangements. Analyses of the codon
usage and the GC content at the codon third position, in conjunction with phylogenomic analyses, showed that the gene cluster
involved in phaseolotoxin synthesis (argK–tox cluster) expanded its distribution by conducting horizontal transfer onto the genomes of two P. syringae pathovars (pv. actinidiae and pv. phaseolicola) from bacterial species distantly related to P. syringae and that its acquisition was quite recent (i.e., after the ancestor of P. syringae diverged into the respective pathovars). Furthermore, the results of a detailed analysis of argK [an anabolic ornithine carbamoyltransferase (anabolic OCTase) gene], which is present within the argK–tox cluster, revealed the plausible process of generation of an unusual composition of the OCTase genes on the genomes of these
two phaseolotoxin-producing pathovars: a catabolic OCTase gene (equivalent to the orthologue of arcB of P. aeruginosa) and an anabolic OCTase gene (argF), which must have been formed by gene duplication, have first been present on the genome of the ancestor of P. syringae; the catabolic OCTase gene has been deleted; the ancestor has diverged into the respective pathovars; the foreign-originated
argK–tox cluster has horizontally transferred onto the genomes of pv. actinidiae and pv. phaseolicola; and hence two copies of only the anabolic OCTase genes (argK and argF) came to exist on the genomes of these two pathovars. Thus, the horizontal gene transfer and the genomic rearrangement were
proven to have played an important role in the pathogenic differentiation and diversification of P. syringae.
Received: 22 May 2001 / Accepted: 26 September 2001 相似文献
3.
The pairs of nitrogen fixation genes nifDK and nifEN encode for the α and β subunits of nitrogenase and for the two subunits of the NifNE protein complex, involved in the biosynthesis
of the FeMo cofactor, respectively. Comparative analysis of the amino acid sequences of the four NifD, NifK, NifE, and NifN
in several archaeal and bacterial diazotrophs showed extensive sequence similarity between them, suggesting that their encoding
genes constitute a novel paralogous gene family. We propose a two-step model to reconstruct the possible evolutionary history
of the four genes. Accordingly, an ancestor gene gave rise, by an in-tandem paralogous duplication event followed by divergence,
to an ancestral bicistronic operon; the latter, in turn, underwent a paralogous operon duplication event followed by evolutionary
divergence leading to the ancestors of the present-day nifDK and nifEN operons. Both these paralogous duplication events very likely predated the appearance of the last universal common ancestor.
The possible role of the ancestral gene and operon in nitrogen fixation is also discussed.
Received: 21 June 1999 / Accepted: 1 March 2000 相似文献
4.
To get a better understanding of the effect of interelement selection on the variation of long terminal repeat retrotransposon
families, we have investigated the evolutionary history of blood in the Drosophila melanogaster species complex. We carried out a PCR approach to amplify the 5′ untranslated region from blood in the four species of the complex. This procedure revealed two main classes of size variants. Phylogenetic analyses of nucleotide
sequences from these variants and blood elements from the Drosophila Genome Projects database show that elements are grouped according to their size, so that they probably correspond to two
subfamilies. These two subfamilies arose prior to the split of the complex, and several facts indicate that the expansion
of one of them is leading to the competitive exclusion of the other, at least from the euchromatic regions of the genome.
Received: 17 August 2000 / Accepted: 20 November 2000 相似文献
5.
Janet L. Siefert Kirt A. Martin Fadi Abdi William R. Widger George E. Fox 《Journal of molecular evolution》1997,45(5):467-472
Five complete bacterial genome sequences have been released to the scientific community. These include four (eu)Bacteria,
Haemophilus influenzae, Mycoplasma genitalium, M. pneumoniae, and Synechocystis PCC 6803, as well as one Archaeon, Methanococcus jannaschii. Features of organization shared by these genomes are likely to have arisen very early in the history of the bacteria and
thus can be expected to provide further insight into the nature of early ancestors. Results of a genome comparison of these
five organisms confirm earlier observations that gene order is remarkably unpreserved. There are, nevertheless, at least 16
clusters of two or more genes whose order remains the same among the four (eu)Bacteria and these are presumed to reflect conserved
elements of coordinated gene expression that require gene proximity. Eight of these gene orders are essentially conserved
in the Archaea as well. Many of these clusters are known to be regulated by RNA-level mechanisms in Escherichia coli, which supports the earlier suggestion that this type of regulation of gene expression may have arisen very early. We conclude
that although the last common ancestor may have had a DNA genome, it likely was preceded by progenotes with an RNA genome.
Received: 10 March 1996 / Accepted: 20 May 1997 相似文献
6.
Andropin, which encodes an antibacterial protein, is closely linked to the Cecropin gene cluster of D. melanogaster. Andropin and Cecropins are considered to have originated from one common ancestor. However, the expression pattern of Andropin is distinct from that of Cecropins, being restricted to the adult male ejaculatory duct. To elucidate the evolutionary process of Andropin, we have sequenced Andropin genes from D. melanogaster and its closely related species. In D. melanogaster, the nucleotide diversity of Andropin is remarkably low compared to that of Cecropin. In contrast, nonsynonymous substitutions of Andropin are conspicuously frequent between species. From genomic Southern analysis, Andropin-like genes are present in at least the
melanogaster species subgroup. The series of present results suggests that Andropin was born in the course of constructing the Drosophila Cecropin gene family and then started to evolve rapidly, in contrast to Cecropins.
Received: 10 August 2001 / Accepted: 29 October 2001 相似文献
7.
A DNA fragment containing short tandem repeat sequences (approximately 86-bp repeat) was isolated from a Xenopus laevis cDNA library. Southern blot and in situ hybridization analyses revealed that the repeat was highly dispersed in the genome and was present at approximately 1 million
copies per haploid genome. We named this element Xstir (Xenopus short tandemly and invertedly repeating element) after its arrangement in the genome. The majority of the genomic Xstir sequences
were digested to monomer and dimer sizes with several restriction enzymes. Their sequences were found to be highly homogeneous
and organized into tandem arrays in the genome. Alignment analyses of several known sequences showed that some of the Xstir-like
sequences were also organized into interspersed inverted repeats. The inverted repeats consisted of an inverted pair of two
differently modified Xstirs separated by a short insert. In addition, these were framed by another novel inverted repeat (Xstir-TIR).
The Xstir-TIR sequence was also found at the ends of tandem Xstir arrays. Furthermore, we found that Xstir-TIR was linked
to a motif characterizing the T2 family which belonged to a vertebrate MITE (miniature inverted-repeat transposable element)
family, suggesting the importance of Xstir-TIR for their amplification and transposition. The present study of 11 anuran and
2 urodele species revealed that Xstir or Xstir-like sequences were extensively amplified in the three Xenopus species. Genomic Xstir populations of X. borealis and X. laevis were mutually indistinguishable but significantly different from that of X. tropicalis.
Received: 5 April 2000 / Accepted: 3 August 2000 相似文献
8.
Jocelyne DiRuggiero James R. Brown Allison P. Bogert Frank T. Robb 《Journal of molecular evolution》1999,49(4):474-484
DNA repair in the Archaea is relevant to the consideration of genome maintenance and replication fidelity in the last universal
common ancestor (LUCA) from two perspectives. First, these prokaryotes embody a mix of bacterial and eukaryal molecular features.
Second, DNA repair proteins would have been essential in LUCA to maintain genome integrity, regardless of the environmental
temperature. Yet we know very little of the basic molecular mechanisms of DNA damage and repair in the Archaea in general.
Many studies on DNA repair in archaea have been conducted with hyperthermophiles because of the additional stress imposed
on their macromolecules by high temperatures. In addition, of the six complete archaeal genome sequences published so far,
five are thermophilic archaea. We have recently shown that the hyperthermophile Pyrococcus furiosus has an extraordinarily high capacity for repair of radiation-induced double-strand breaks and we have identified and sequenced
several genes involved in DNA repair in P. furiosus. At the sequence level, only a few genes share homology with known bacterial repair genes. For instance, our phylogenetic
analysis indicates that archaeal recombinases occur in two paralogous gene families, one of which is very deeply branched,
and both recombinases are more closely related to the eukaryotic RAD51 and Dmc1 gene families than to the Escherichia coli recA gene. We have also identified a gene encoding a repair endo/exonuclease in the genomes of several Archaea. The archaeal sequences
are highly homologous to those of the eukaryotic Rad2 family and they cluster with genes of the FEN-1 subfamily, which are
known to be involved in DNA replication and repair in eukaryotes. We argue that there is a commonality of mechanisms and protein
sequences, shared between prokaryotes and eukaryotes for several modes of DNA repair, reflecting diversification from a minimal
set of genes thought to represent the genome of the LUCA. 相似文献
9.
Bouzat JL McNeil LK Robertson HM Solter LF Nixon JE Beever JE Gaskins HR Olsen G Subramaniam S Sogin ML Lewin HA 《Journal of molecular evolution》2000,51(6):532-543
We employed a phylogenomic approach to study the evolution of α subunits of the proteasome gene family from early diverging
eukaryotes. BLAST similarity searches of the Giardia lamblia genome identified all seven α proteasome genes characteristic of eukaryotes from the crown group. In addition, a PCR strategy
for the amplification of multiple α subunit sequences generated single α proteasome products for representatives of the Kinetoplastida
(Leishmania major), the Parabasalia (Trichomonas vaginalis), and the Microsporidia (Vairimorpha sp., Nosema sp., Endoreticulata sp., and Spraguea lophii). The kinetoplastid Trypanosoma cruzi and the eukaryote crown group Acanthamoeba castellanii yielded two distinct α proteasome genes each. The presence of seven distinct α proteasome genes in G. lamblia, one of the earliest-diverging eukaryotes, indicates that the α proteasome gene family evolved rapidly from a minimum of one
gene in Archaea to seven or more in Eukarya. Results from the phylogenomic analysis are consistent with the idea that the
Diplomonida (as represented by G. lamblia), the Kinetoplastida, the Parabasalia, and the Microsporidia diverged after the duplication events that originated the α
proteasome gene family. A model for the early origin and evolution of the proteasome gene family is presented.
Received: 14 February 2000 / Accepted: 14 August 2000 相似文献
10.
Evolution of Duplicated <Emphasis Type="BoldItalic">reggie</Emphasis> Genes in Zebrafish and Goldfish 总被引:1,自引:0,他引:1
Málaga-Trillo E Laessing U Lang DM Meyer A Stuermer CA 《Journal of molecular evolution》2002,54(2):235-245
Invertebrates, tetrapod vertebrates, and fish might be expected to differ in their number of gene copies, possibly due the
occurrence of genome duplication events during animal evolution. Reggie (flotillin) genes code for membrane-associated proteins involved in growth signaling in developing and regenerating axons. Until now,
there appeared to be only two reggie genes in fruitflies, mammals, and fish. The aim of this research was to search for additional copies of reggie genes in fishes, since a genome duplication might have increased the gene copy number in this group. We report the presence
of up to four distinct reggie genes (two reggie-1 and two reggie-2 genes) in the genomes of zebrafish and goldfish. Phylogenetic analyses show that the zebrafish and goldfish sequence pairs
are orthologous, and that the additional copies could have arisen through a genome duplication in a common ancestor of bony
fish. The presence of novel reggie mRNAs in fish embryos indicates that the newly discovered gene copies are transcribed and possibly expressed in the developing
and regenerating nervous system. The intron/exon boundaries of the new fish genes characterized here correspond with those
of human genes, both in location and phase. An evolutionary scenario for the evolution of reggie intron-exon structure, where loss of introns appears to be a distinctive trait in invertebrate reggie genes, is presented.
Received: 24 January 2001 / Accepted: 27 July 2001 相似文献
11.
Francesco Frati Chris Simon Jack Sullivan David L. Swofford 《Journal of molecular evolution》1997,44(2):145-158
The sequence of the mitochondrial COII gene has been widely used to estimate phylogenetic relationships at different taxomonic
levels across insects. We investigated the molecular evolution of the COII gene and its usefulness for reconstructing phylogenetic
relationships within and among four collembolan families. The collembolan COII gene showed the lowest A + T content of all
insects so far examined, confirming that the well-known A + T bias in insect mitochondrial genes tends to increase from the
basal to apical orders. Fifty-seven percent of all nucleotide positions were variable and most of the third codon positions
appeared free to vary. Values of genetic distance between congeneric species and between families were remarkably high; in
some cases the latter were higher than divergence values between other orders of insects. The remarkably high divergence levels
observed here provide evidence that collembolan taxa are quite old; divergence levels among collembolan families equaled or
exceeded divergences among pterygote insect orders. Once the saturated third-codon positions (which violated stationarity
of base frequencies) were removed, the COII sequences contained phylogenetic information, but the extent of that information
was overestimated by parsimony methods relative to likelihood methods. In the phylogenetic analysis, consistent statistical
support was obtained for the monophyly of all four genera examined, but relationships among genera/families were not well
supported. Within the genus Orchesella, relationships were well resolved and agreed with allozyme data. Within the genus Isotomurus, although three pairs of populations were consistently identified, these appeared to have arisen in a burst of evolution from
an earlier ancestor. Isotomurus italicus always appeared as basal and I. palustris appeared to harbor a cryptic species, corroborating allozyme data.
Received: 12 January 1996 / Accepted: 10 August 1996 相似文献
12.
P elements of two different subfamilies designated as M- and O-type are thought to have invaded host species in the Drosophila obscura group via horizontal transmission from external sources. Sequence comparisons with P elements isolated from other species suggested that the horizontal invasion by the O-type must have been a rather recent
event, whereas the M-type invasion should have occurred in the more distant past. To trace the phylogenetic history of O-type
elements, additional taxa were screened for the presence of O- and M-type elements using type-specific PCR primers. The phylogeny
deduced from the sequence data of a 927-bp section (14 taxa) indicate that O-type elements have undergone longer periods of
regular vertical transmission in the lineages of the saltans and willistoni groups of Drosophila. However, starting from a species of the D. willistoni group they were transmitted horizontally into other lineages. First the lineage of the D. affinis subgroup was infected, and finally, in a more recent wave of horizontal spread, species of three different genera were invaded
by O-type elements from the D. affinis lineage: Scaptomyza, Lordiphosa, and the sibling species D. bifasciata/D. imaii of the Drosophila obscura subgroup. The O-type elements isolated from these taxa are almost identical (sequence divergence <1%). In contrast, no such
striking similarities are observed among M-type elements. Nevertheless, the sequence phylogeny of M-type elements is also
not in accordance with the phylogeny of their host species, suggesting earlier horizontal transfer events. The results imply
that P elements cross species barriers more frequently than previously thought but require a particular genomic environment and
thus seem to be confined to a rather narrow spectrum of host species. Consequently, different P element types acquired by successive horizontal transmission events often coexist within the same genome.
Received: 15 May 2000 / Accepted: 19 July 2000 相似文献
13.
The complete nucleotide sequence of the mitochondrial genome was determined for a conger eel, Conger myriaster (Elopomorpha: Anguilliformes), using a PCR-based approach that employs a long PCR technique and many fish-versatile primers.
Although the genome [18,705 base pairs (bp)] contained the same set of 37 mitochondrial genes [two ribosomal RNA (rRNA), 22
transfer RNA (tRNA), and 13 protein-coding genes] as found in other vertebrates, the gene order differed from that recorded
for any other vertebrates. In typical vertebrates, the ND6, tRNAGlu, and tRNAPro genes are located between the ND5 gene and the control region, whereas the former three genes, in C. myriaster, have been translocated to a position between the control region and the tRNAPhe gene that are contiguously located at the 5′ end of the 12S rRNA gene in typical vertebrates. This gene order is similar
to the recently reported gene order in four lineages of birds in that the latter lack the ND6, tRNAGlu, and tRNAPro genes between the ND5 gene and the control region; however, the relative position of the tRNAPro to the ND6–tRNAGlu genes in C. myriaster was different from that in the four birds, which presumably resulted from different patterns of tandem duplication of gene
regions followed by gene deletions in two distantly related groups of organisms. Sequencing of the ND5–cyt b region in 11 other anguilliform species, representing 11 families, plus one outgroup species, revealed that the same gene
order as C. myriaster was shared by another 4 families, belonging to the suborder Congroidei. Although the novel gene orders of four lineages of
birds were indicated to have multiple independent origins, phylogenetic analyses using nucleotide sequences from the mitochondrial
12S rRNA and cyt b genes suggested that the novel gene orders of the five anguilliform families had originated in a single ancestral species.
Received: 13 July 2000 / Accepted: 30 November 2000 相似文献
14.
Detailed nucleotide diversity studies revealed that the fil1 gene of Antirrhinum, which has been reported to be single copy, is a member of a gene family composed of at least five genes. In four Antirrhinum majus populations with different mating systems and one A. graniticum population, diversity within populations is very low. Divergence among Antirrhinum species and between Antirrhinum and Digitalis is also low. For three of these genes we also obtained sequences from a more divergent member of the Scrophulariaceae, Verbascum nigrum. Compared with Antirrhinum, little divergence is again observed. These results, together with similar data obtained previously for five cycloidea genes,
suggest either that these gene families (or the Antirrhinum genome) are unusually constrained or that there is a low rate of substitution in these lineages. Using a sample of 52 genes,
based on two measures of codon usage (ENC and GC3 content), we show that cyc and fil1 are among the least biased Antirrhinum genes, so that their low diversity is not due to extreme codon bias.
Received: 20 June 2000 / Accepted: 25 October 2000 相似文献
15.
The intriguing diversity of highly abundant satellite repeats found even among closely related species can result from processes
leading to dramatic changes in copy number of a particular sequence in the genome and not from rapid accumulation of mutations.
To test this hypothesis, we investigated the distribution of the PRAT satellite DNA family, a highly abundant major satellite
in the coleopteran species Palorus ratzeburgii, in eight species belonging to the related genera (Tribolium, Tenebrio, Latheticus), the subfamily (Pimeliinae), and the family (Chrysomelidae). Dot blot analysis and PCR assay followed by Southern hybridization
revealed that the PRAT satellite, in the form of low-copy number repeats, was present in all tested species. The PRAT satellite
detected in the species Pimelia elevata has been sequenced, and compared with previously cloned PRAT monomers from Palorus ratzeburgii and Palorus subdepressus. Although the two Palorus species diverged at least 7 Myr ago, and the subfamily Pimeliinae separated from the genus Palorus 50–60 Myr ago, all PRAT clones exhibit high mutual homology, with average variability relative to the common consensus sequence
of 1.3%. The presence of ancestral mutations found in PRAT clones from all three species as well as the absence of species
diagnostic mutations illustrate extremely slow sequence evolution. This unexpectedly high conservation of PRAT satellite DNA
sequence might be induced by a small bias of turnover mechanisms favoring the ancestral sequence in the process of molecular
drive. 相似文献
16.
Phylogenetic Relationships of the Glycolytic Enzyme, Glyceraldehyde-3-Phosphate Dehydrogenase, from Parabasalid Flagellates 总被引:4,自引:0,他引:4
Over 90% of the open reading frame of gap genes for glycolytic glyceraldehyde-3-phosphate dehydrogenase (GAPDH; EC 1.2.1.12) was obtained with PCR from five species
of Parabasala. With gap1 from Trichomonas vaginalis obtained earlier, the data include two sequences each for three species. All sequences were colinear with T. vaginalis gap1 and shared with it as a synapomorphy a 10- to 11-residue insertion not found in any other gap and an S-loop with characteristic features of eubacterial GAPDH. All residues known to be highly conserved in this enzyme
were present. The parabasalid sequences formed a robust monophyletic group in phylogenetic reconstructions with distance-based,
maximum-parsimony, and maximum-likelihood methods. The two genes of the amphibian commensal, Trichomitus batrachorum, shared a common ancestor with the rest, which separate into two well-supported lineages. T. vaginalis and Tetratrichomonas gallinarum (both representatives of Trichomonadinae) formed one, while Monocercomonas sp. and Tritrichomonas foetus formed the other. These data agreed with and/or were close to published reconstructions based on other macromolecules. They
did not support the ancestral position of Monocercomonas sp. proposed on the basis of morphological characteristics but confirmed an early emergence of Trichomitus batrachorum. The sequence pairs obtained from three species indicated either gene duplications subsequent to the divergence of the corresponding
lineages or a strong gene conversion later in these lineages. The parabasalid clade was a robust part of the eubacterial radiation
of GAPDH and showed no relationships to the clade that contained all other eukaryotic gap genes. The data clearly reveal that the members of this lineage use in their glycolytic pathway a GAPDH species with properties
and an evolutionary history that are unique among all eukaryotes studied so far.
Received: 28 April 1997 / Accepted: 14 October 1997 相似文献
17.
Short interspersed DNA elements (SINEs) amplify by retroposition either by (i) successive waves of amplification from one
or a few evolving master genes or by (ii) the generation of new master genes that coexist with their progenitors. Individual,
highly conserved, elements of the B1 SINE family were identified from the GenBank nucleotide database using various B1 subfamily
consensus query sequences to determine their integration times into the mouse genome. A comparison of orthologous loci in
various species of the genus Mus demonstrated that four subfamilies of B1 elements have been amplifying within the last 1–3 million years. Therefore, B1 sequences
are generated by coexisting source genes. Additionally, three B1 subfamilies have been concurrently propagated during subspecies
divergence and strain formation in Mus, indicating very recent activity of this retroposon family. The patterns of intra- and interspecies variations of orthologous
loci demonstrate the usefulness of B1 integrations as a phylogenetic tool. A single inconsistency in the phylogenetic trends
was depicted by the presence of a B1 insert in an orthologous locus exclusively in M. musculus and M. pahari. However, DNA sequence analysis revealed that these were independent integrations at the same genomic site. One highly conserved
B1 element that integrated at least 4–6 million years ago suggests the possibility of occasional function for B1 integrations.
Received: 25 February 2000 / Accepted: 5 June 2000 相似文献
18.
In this paper we report the identification and characterization of a DNA region containing putative mcpA-like gene coding for a Methyl Accepting Chemotaxis Protein (MCP) and belonging to a Burkholderia endosymbiont of the arbuscular mycorrhizal fungus Gigaspora margarita. A genomic library of total DNA extracted from the fungal spores, representative of the bacterial genome, was used to investigate
the prokaryotic genome. PCR experiments with primers designed on the Burkholderia mcpA-like gene and Southern blot analysis demonstrate that they actually belong to the genome of G. margarita endosymbiont. The expression of the mcpA-like gene in the fungal spores was demonstrated by RT-PCR experiments. The detailed comparative analysis of the bacterial
MCPs available in databases allowed to draw a possible evolutionary pathway leading to the present-day mcpA genes. Accordingly, the ancestor of the mcpA-like genes was the result of a domain shuffling event involving two ancestral mini-genes encoding a PAS-PAC and a MA domains,
respectively, followed by the elongation of the PAS-PAC moiety. The following evolutionary divergence involved not only point
mutations, but also larger rearrangements (insertions and deletions) at the 3′ end of the gene. 相似文献
19.
Cristina M. Justice Zhining Den Son V. Nguyen Mark Stoneking Prescott L. Deininger Mark A. Batzer Bronya J.B. Keats 《Journal of molecular evolution》2001,52(3):232-238
Friedreich ataxia is an autosomal recessive neurodegenerative disorder associated with a GAA repeat expansion in the first
intron of the gene (FRDA) encoding a novel, highly conserved, 210 amino acid protein known as frataxin. Normal variation in
repeat size was determined by analysis of more than 600 DNA samples from seven human populations. This analysis showed that
the most frequent allele had nine GAA repeats, and no alleles with fewer than five GAA repeats were found. The European and
Syrian populations had the highest percentage of alleles with 10 or more GAA repeats, while the Papua New Guinea population
did not have any alleles carrying more than 10 GAA repeats. The distributions of repeat sizes in the European, Syrian, and
African American populations were significantly different from those in the Asian and Papua New Guinea populations (p < 0.001). The GAA repeat size was also determined in five nonhuman primates. Samples from 10 chimpanzees, 3 orangutans, 1
gorilla, 1 rhesus macaque, 1 mangabey, and 1 tamarin were analyzed. Among those primates belonging to the Pongidae family,
the chimpanzees were found to carry three or four GAA repeats, the orangutans had four or five GAA repeats, and the gorilla
carried three GAA repeats. In primates belonging to the Cercopithecidae family, three GAA repeats were found in the mangabey
and two in the rhesus macaque. However, an AluY subfamily member inserted in the poly(A) tract preceding the GAA repeat region in the rhesus macaque, making the amplified
sequence approximately 300 bp longer. The GAA repeat was also found in the tamarin, suggesting that it arose at least 40 million
years ago and remained relatively small throughout the majority of primate evolution, with a punctuated expansion in the human
genome.
Received: 18 August 2000 / Accepted: 10 November 2000 相似文献
20.
The Drosophila fat body protein 2 gene (Fbp2) is an ancient duplication of the alcohol dehydrogenase gene (Adh) which encodes a protein that differs substantially from ADH in its methionine content. In D. melanogaster, there is one methionine in ADH, while there are 51 (20% of all amino acids) in FBP2. Methionine is involved in 46% of amino
acid replacements when Fbp2 DNA sequences are compared between D. melanogaster and D. pseudoobscura. Methionine accumulation does not affect conserved residues of the ADH-ADHr-FBP2 multigene family. The multigene family has evolved by replacement of mildly hydrophobic amino acids by methionine with
no apparent reversion. Its short-term evolution was compared between two Drosophila species, while its long-term evolution was compared between two genera belonging respectively to acalyptrate and calyptrate
Diptera, Drosophila and Sarcophaga. The pattern of nucleotide substitution was consistent with an independent accumulation of methionines at the Fbp2 locus in each lineage. Under a steady-state model, the rate of methionine accumulation was constant in the lineage leading
to Drosophila, and was twice as fast as that in the calyptrate lineage. Substitution rates were consistent with a slight positive selective
advantage for each methionine change in about one-half of amino acid sites in Drosophila. This shows that selection can potentially account for a large proportion of amino acid replacements in the molecular evolution
of proteins.
Received: 12 December 1994 / Accepted: 15 April 1996 相似文献