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1.
The archiascomycetous fungus Protomyces pachydermus has two group I introns within the nuclear small subunit (nSSU) rRNA gene. One of these introns has an internal open reading
frame (ORF) that encodes a predicted protein of 228 amino acid residues. On the other hand, Protomyces macrosporus has two group I introns that insert at the same positions as P. pachydermus, which have no ORF. Each alignment was constructed with Protomyces group I introns located in the same position and other introns retrieved by the BLAST Search. Each phylogenetic tree based
on the alignment shows that Protomyces introns are monophyletic but the relationships among fungal introns do not reflect on the fungal phylogeny. Therefore, it
is suggested that two different horizontal transfers of group I introns occurred at the early stage of Protomyces species diversification.
Received: 11 June 1997 / Accepted: 2 September 1997 相似文献
2.
M.K. Tan 《Journal of molecular evolution》1997,44(6):637-645
Studies of the distribution of the three group I introns (intron A, intron T, and intron AT) in the 26S rDNA of Gaeumannomyces graminis had suggested that they were transferred to a common ancestor of G. graminis var. avenae and var. tritici after it had branched off from var. graminis. Intron AT and intron A exhibited vertical inheritance and coevolved in concert with their hosts. Intron loss could occur
after its acquisition. Loss of any one of the three introns could occur in var. tritici whereas only loss of intron T had been found in the majority of var. avenae isolates. The existence of isolates of var. tritici and var. avenae with three introns suggested that intron loss could be reversed by intron acquisition and that the whole process is a dynamic
one. This process of intron acquisition and intron loss reached different equilibrium points for different varieties and subgroups,
which explained the irregular distribution of these introns in G. graminis. Each of the three group I introns was more closely related to other intron sequences that share the same insertion point
in the 26S rDNA than to each other. These introns in distantly related organisms appeared to have a common ancestry. This
system had provided a good model for studies on both the lateral transfer and common ancestry of group I introns in the 26S
rRNA genes.
Received: 17 May 1996 / Accepted: 14 January 1997 相似文献
3.
The nucleotide sequence of the 18S rDNA coding gene in the ascomycetes parasitic fungus Isaria japonica contains a group I intron with a length of 379 nucleotides. The identification of the DNA sequence as a group I intron is
based on its sequence homology to other fungal group I introns. Its group I intron contained the highly conserved sequence
elements P, Q, R, and S found in other group I introns. Surprisingly, the intron sequence of I. japonica is more similar to that of Ustilago maydis than to the one found in Sclerotinia sclerotiorum. This is in contrast to the sequence identity found on the neighboring rDNA. This is an interesting finding and suggests a
horizontal transfer of group I intron sequences.
Received: 19 September 1997 / Accepted: 10 September 1998 相似文献
4.
The Peperomia polybotrya coxI gene intron is the only currently reported group I intron in a vascular plant mitochondrial genome and it likely originated
by horizontal transfer from a fungal donor. We provide a clearer picture of the horizontal transfer and a portrayal of the
evolution of the group I intron since it was gained by the Peperomia mitochondrial genome. The intron was transferred recently in terms of plant evolution, being restricted to the single genus
Peperomia among the order Piperales. Additional support is presented for the suggestion that a recombination/repair mechanism was used
by the intron for integration into the Peperomia mitochondrial genome, as a perfect 1:1 correspondence exists between the intron's presence in a species and the presence
of divergent nucleotide markers flanking the intron insertion site. Sequencing of coxI introns from additional Peperomia species revealed that several mutations have occurred in the intron since the horizontal transfer, but sequence alterations
have not caused frameshifts or created stop codons in the intronic open reading frame. In addition, two coxI pseudogenes in Peperomia cubensis were discovered that lack a large region of coxI exon 2 and contain a truncated version of the group I intron that likely cannot be spliced out.
Received: 29 May 1997 / Accepted: 1 November 1997 相似文献
5.
Molecular evolution of calmodulin-like domain protein kinases (CDPKs) in plants and protists 总被引:1,自引:0,他引:1
Many genes for calmodulin-like domain protein kinases (CDPKs) have been identified in plants and Alveolate protists. To study
the molecular evolution of the CDPK gene family, we performed a phylogenetic analysis of CDPK genomic sequences. Analysis
of introns supports the phylogenetic analysis; CDPK genes with similar intron/exon structure are grouped together on the phylogenetic
tree. Conserved introns support a monophyletic origin for plant CDPKs, CDPK-related kinases, and phosphoenolpyruvate carboxylase
kinases. Plant CDPKs divide into two major branches. Plant CDPK genes on one branch share common intron positions with protist
CDPK genes. The introns shared between protist and plant CDPKs presumably originated before the divergence of plants from
Alveolates. Additionally, the calmodulin-like domains of protist CDPKs have intron positions in common with animal and fungal
calmodulin genes. These results, together with the presence of a highly conserved phase zero intron located precisely at the
beginning of the calmodulin-like domain, suggest that the ancestral CDPK gene could have originated from the fusion of protein
kinase and calmodulin genes facilitated by recombination of ancient introns.
Received: 11 July 2000 / Accepted: 18 April 2001 相似文献
6.
Introns are generally believed to evolve too rapidly and too erratically to be of much use in phylogenetic reconstructions.
Few phylogenetically informative intron sequences are available, however, to ascertain the validity of this supposition. In
the present study the supposition was tested on the example of the mammalian class II major histocompatibility complex (Mhc) genes of the DRB family. Since the Mhc genes evolve under balancing selection and are believed to recombine or rearrange frequently, the evolution of their introns
could be expected to be particularly rapid and subject to scrambling. Sequences of intron 4 and 5 DRB genes were obtained from polymerase chain reaction-amplified fragments of genomic DNA from representatives of six eutherian
orders—Primates, Scandentia, Chiroptera, Dermoptera, Lagomorpha, and Insectivora. Although short stretches of the introns
have indeed proved to be unalignable, the bulk of the intron sequences from all six orders, spanning >85 million years (my)
of evolution, could be aligned and used in a study of the tempo and mode of intron evolution. The analysis has revealed the
Mhc introns to evolve at a rate similar to that of other genes and of synonymous sites of non-Mhc genes. No evidence of homogenization or large-scale scrambling of the intron sequences could be found. The Mhc introns apparently evolve largely by point mutations and insertions/deletions. The phylogenetic signals contained in the
intron sequences could be used to identify Scandentia as the sister group of Primates, to support the existence of the Archonta
superorder, and to confirm the monophyly of the Chiroptera.
Received: 26 October 1998 / Accepted: 21 December 1998 相似文献
7.
Debashish Bhattacharya Klaus Weber Seon Sook An Wolfgang Berning-Koch 《Journal of molecular evolution》1998,47(5):544-550
Green algae and land plants trace their evolutionary history to a unique common ancestor. This ``green lineage' is phylogenetically
subdivided into two distinct assemblages, the Chlorophyta and the Streptophyta. The Chlorophyta includes the Chlorophyceae,
Trebouxiophyceae, Ulvophyceae, and Prasinopohyceae, whereas the Streptophyta includes the Charophyceae plus the bryophytes,
ferns, and all other multicellular land plants (Embryophyta). The Prasinophyceae is believed to contain the earliest divergences
within the green lineage. Phylogenetic analyses using rDNA sequences identify the prasinophytes as a paraphyletic taxon that
diverges at the base of the Chlorophyta. rDNA analyses, however, provide ambiguous results regarding the identity of the flagellate
ancestor of the Streptophyta. We have sequenced the actin-encoding cDNAs from Scherffelia dubia (Prasinophyceae), Coleochaete scutata, Spirogyra sp. (Charophyceae), and the single-copy actin gene from Mesostigma viride (Prasinophyceae). Phylogenetic analyses show Mesostigma to be the earliest divergence within the Streptophyta and provide direct evidence for a scaly, biflagellate, unicellular
ancestor for this lineage. This result is supported by the existence of two conserved actin-coding region introns (positions
20-3, 152-1), and one intron in the 5′-untranslated region of the actin gene shared by Mesostigma and the embryophytes.
Received: 10 July 1997 / Accepted: 9 April 1998 相似文献
8.
Hiroshi Wada Mari Kobayashi Riki Sato Nori Satoh Hitoshi Miyasaka Yoshihisa Shirayama 《Journal of molecular evolution》2002,54(1):118-128
To test the validity of intron–exon structure as a phylogenetic marker, the intron–exon structure of EF-1α genes was investigated
for starfish, acornworms, ascidians, larvaceans, and amphioxus and compared with that of vertebrates. Of the 11 distinct intron
insertion sites found within the coding regions of the deuterostome EF-1α genes, 7 are shared by several taxa, while the remainder
are unique to certain taxa. Examination of the shared introns of the deuterostome EF-1α gene revealed that independent intron
loss or intron insertion must have occurred in separate lineages of the deuterostome taxa. Maximum parsimony analysis of the
intron–exon data matrix recovered five parsimonious trees (consistency index = 0.867). From this result, we concluded that
the intron–exon structure of deuterostome EF-1α has evolved more dynamically than previously thought, rendering it unsuitable
as a phylogenetic marker. We also reconstructed an evolutionary history of intron insertion–deletion events on the deuterostome
phylogeny, based on several molecular phylogenetic studies. These analyses revealed that the deuterostome EF-1α gene has lost
individual introns more frequently than all introns simultaneously. 相似文献
9.
We have characterized structural features and the distribution pattern of nuclear group I introns found in ribosomal DNA (rDNA) of closely related plant pathogenic fungi of the family Sclerotiniaceae. Sixteen introns, at two distinct positions in the small-subunit (SSU) and large-subunit (LSU) rDNA, were sequenced and analyzed among the 29 taxa included in the initial screening. Genera found to contain introns were Botrytis, Dumontinia, Encoelia, Grovesinia, Myriosclerotinia, and Sclerotinia. Secondary-structure analyses of the group I introns concluded that all belong to the common IC1 subclass. Interestingly, the SSU rDNA intron from Myriosclerotinia caricisampullacea contains an insertion-like sequence extension which may be a relic of an open reading frame. Incongruent branching patterns of intron-based and rDNA-based (internal transcribed spacer) phylogenetic trees suggest that the fungal host genomes and the group I introns do not share a common evolutionary history. A model to explain how horizontal intron transfers may have occurred among the closely related fungal taxa is proposed. 相似文献
10.
Phylogenetic and exon–intron structure analyses of intra- and interspecific fungal subtilisins in this study provided support for a mixed model of intron evolution: a synthetic theory of introns-early and introns-late speculations. Intraspecifically, there were three phase zero introns in Pr1A and its introns 1 and 2 located at the highly conserved positions were phylogentically congruent with coding region, which is in favor of the view of introns-early speculation, while intron 3 had two different sizes and was evolutionarily incongruent with coding region, the evidence for introns-late speculation. Noticeably, the subtilisin Pr1J gene from different strains of M. ansiopliae contained different number of introns, the strong evidence in support of introns-late theory. Interspecifically, phylogenetic analysis of 60 retrievable fungal subtilisins provided a clear relationship between amino acid sequence and gene exon–intron structure that the homogeneous sequences usually have a similar exon–infron structure. There were 10 intron positions inserted by highly biased phase zero introns across examined fungal subtilisin genes, half of these positions were highly conserved, while the others were species-specific, appearing to be of recent origins due to intron insertion, in favor of the introns-late theory. High conservations of positions 1 and 2 inserted by the high percentage of phase zero introns as well as the evidence of phylogenetic congruence between the evolutionary histories of intron sequences and coding region suggested that the introns at these two positions were primordial.Reviewing Editor:Dr. Manyuan Long 相似文献
11.
EVIDENCE FOR LATERAL TRANSFER OF AN IE INTRON BETWEEN FUNGAL AND RED ALGAL SMALL SUBUNIT RRNA GENES1
Kirsten M. Müller Darlene W. Ellenor Alison R. Sherwood Robert G. Sheath Jamie J. Cannone Robin R. Gutell 《Journal of phycology》2005,41(2):380-390
A previous study of the North American biogeography of the red algal genus Hildenbrandia noted the presence of group I introns in the nuclear small subunit (SSU) rRNA gene of the marine species H. rubra (Sommerf.) Menegh. Group IC1 introns have been previously reported at positions 516 and 1506 in the nuclear SSU RNA genes in the Bangiales and Hildenbrandiales. However, the presence of an unclassified intron at position 989 in a collection of H. rubra from British Columbia was noted. This intron is a member of the IE subclass and is the first report of this intron type in the red algae. Phylogenetic analyses of the intron sequences revealed a close relationship between this IE intron inserted at position 989 and similar fungal IE introns in positions 989 and 1199. The 989 IE introns formed a moderately to well‐supported clade, whereas the 1199 IE introns are weakly supported. Unique structural helices in the P13 domain of the 989 and 1199 IE introns also point to a close relationship between these two clades and provide further evidence for the value of secondary structural characteristics in identifying homologous introns in evolutionarily divergent organisms. The absence of the 989 IE intron in all other red algal nuclear SSU rRNA genes suggests that it is unlikely that this intron was vertically inherited from the common ancestor of the red algal and fungal lineages but rather is the result of lateral transfer between fungal and red algal nuclear SSU rRNA genes. 相似文献
12.
The extracellular hemoglobins of cladocerans derive from the aggregation of 12 two-domain globin subunits that are apparently
encoded by four genes. This study establishes that at least some of these genes occur as a tandem array in both Daphnia magna and Daphnia exilis. The genes share a uniform structure; a bridge intron separates two globin domains which each include three exons and two
introns. Introns are small, averaging just 77 bp, but a longer sequence (2.2–3.2 kb) separates adjacent globin genes. A survey
of structural diversity in globin genes from other daphniids revealed three independent cases of intron loss, but exon lengths
were identical, excepting a 3-bp insertion in exon 5 of Simocephalus. Heterogeneity in the extent of nucleotide divergence was marked among exons, largely as a result of the pronounced diversification
of the terminal exon. This variation reflected, in part, varying exposure to concerted evolution. Conversion events were frequent
in exons 1–4 but were absent from exons 5 and 6. Because of this difference, the results of phylogenetic analyses were strongly
affected by the sequences employed in this construction. Phylogenies based on total nucleotide divergence in exons 1–4 revealed
affinities among all genes isolated from a single species, reflecting the impact of gene conversion events. In contrast, phylogenies
based on total nucleotide divergence in exons 5 and 6 revealed affinities among orthologous genes from different taxa.
Received: 8 March 1999 / Accepted: 14 July 1999 相似文献
13.
Evolutionary relationships of the two basal fungal phyla Chytridiomycota and Zygomycota are reviewed in light of recent molecular phylogenetic investigation based on rDNA (nSSU, nLSU rDNA), entire mitochondrial genomes, and nuclear protein coding gene sequences (e.g., EF-1alpha, RPB1). Accumulated molecular evidence strongly suggests that the two basal fungal phyla are not monophyletic. For example, the chytridiomycete order Blastocladiales appears to be closely related to the zygomycete order Entomophthorales. Within the Zygomycota, a monophyletic clade, consisting of the Dimargaritales, Harpellales, and Kickxellales, which is characterized by a shared unique septal ultrastructure, was identified. Moreover, evidence for the exclusion of zygomycete orders Amoebidiales and Eccrinales from the Fungi, and their placement at the Animal-Fungi boundary has been clearly documented. Microsporidia, a group of amitochondriate organisms currently under intensive study, is not supported as derived within the Fungi, but a fungal affinity cannot be ruled out. Taking these molecular phylogenetic studies into account, we proposed a hypothetical evolutionary framework of basal fungi. 相似文献
14.
The ascomycetous fungus Cryptendoxyla hypophloia contains an insertion of 433 base pairs in the genes encoding nuclear small subunit ribosomal RNA. Secondary structure analyses
of the insert reveal characteristics indicative of a Group I intron, including elements P, Q, R, and S; however, the sequences
of these conserved regions deviate significantly from recognized consensus sequences for Group I introns. Principal-components
analysis, based on 79 nucleotide positions from the conserved core sequences of 93 Group I introns, identified 17 introns
similar to that of C. hypophloia. This grouping, which includes inserts from phylogenetically diverse organisms, cannot readily be classified in any previously
recognized major group of Group I introns. We propose the creation of a new group, IE, to accommodate these sequences, and
discuss the evolutionary relationships between group IE and other major groups of Group I introns.
Received: 11 January 1998 / Accepted: 12 October 1998 相似文献
15.
Earlier molecular phylogenetic analyses based on nuclear small subunit ribosomal DNA (nSSU rDNA) suggest that the Zygomycota are polyphyletic within the Chytridiomycota. However, these analyses failed to resolve almost all interordinal relationships among basal fungi (Chytridiomycota and Zygomycota), due to lack of sufficient characters within the nSSU rDNA. To further elucidate the higher-level phylogeny of Zygomycota, we have sequenced partial RPB1 (DNA dependent RNA polymerase II largest subunit) and EF-1alpha (translation elongation factor 1 alpha) genes from 10 and 3 zygomycete fungi, respectively. Independent molecular phylogenetic analyses were performed based on each sequence by distance and maximum likelihood methods. Although deep phylogenetic relationships among basal fungi still remain poorly resolved using either gene, the RPB1-based phylogeny identified a novel monophyletic clade consisting of the Dimargaritales, Harpellales, and Kickxellales. This result suggests that regularly formed septa (cross walls that divide hyphae into segments) with a lenticular cavity are plesiomorphic for this clade, and indicates the importance of septal pore ultrastructure in zygomycete phylogeny. In addition, a peculiar mucoralean genus Mortierella, which was considered to be distantly related to the other Mucorales based on previous nSSU rDNA analyses, was resolved as the basal most divergence within the Mucorales, consistent with traditional phenotypic-based taxonomy. Although the taxa included in our analysis are restricted, the monophyly of each order suggested by nSSU rDNA phylogeny is supported by the present RPB1-based analysis. These results support the potential use of RPB1 as an alternative marker for fungal phylogenetic studies. Conversely, the overall fungal phylogeny based on EF-1alpha sequence is poorly resolved. A comparison of numbers of observed substitutions versus inferred substitutions within EF-1alpha indicates that this gene is much more saturated than RPB1. This result suggests that the EF-1alpha gene is unsuitable for resolving higher-level phylogenetic relationships within the Fungi. 相似文献
16.
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
17.
Kiyoto Maekawa Masahiro Kon Kunio Araya Tadao Matsumoto 《Journal of molecular evolution》2001,53(6):651-659
Molecular phylogenetic relationships among 25 species of the wood-feeding cockroach belonging to the genus Salganea St?l (Panesthiinae; Blaberidae) in Southeast Asia were analyzed based on the DNA sequence of the complete mitochondrial cytochrome
oxidase II (COII) gene. Most basal relationships among species of Salganea are poorly resolved by both neighbor-joining and nonweighted parsimony analyses, suggesting the possibility of a hard polytomy
due to a rapid and potentially simultaneous radiation early in the history of the genus. For more apical relationships, however,
some interesting phylogenetic relationships were recognized. The monophyly of the two species groups, morio and foveolata, the former of which is distributed mainly in the Sunda lands (containing the Malay Peninsula, Sumatra, Java, and Borneo),
whereas the latter is Sulawesi endemic, was strongly supported. Based on the inferred phylogenetic patterns and recent palaeogeographic
scenario for Southeast Asia, it is suggested that a radiation of Salganea species occurred in Southeast Asia presumably in the early Tertiary, and several barriers against dispersal and gene flow,
such as the formation of straits or high mountains, have arisen from the middle Tertiary.
Received: 4 April 2001 / Accepted: 20 April 2001 相似文献
18.
Karen Miller Clare Lynch Joanne Martin Elisabeth Herniou Michael Tristem 《Journal of molecular evolution》1999,49(3):358-366
Gypsy LTR-retrotransposons have been identified in the genomes of many organisms, but only a small number of vertebrate examples
have been reported to date. Here we show that members of this family are likely to be widespread in many vertebrate classes
with the possible exceptions of mammals and birds. Phylogenetic analyses demonstrate that although there are several distinct
lineages of vertebrate gypsy LTR-retrotransposons, the majority clusters into one monophyletic clade. Groups of fungal, plant, and insect elements were
also observed, suggesting horizontal transfer between phyla may be infrequent. However, in contrast to this, there was little
evidence to support sister relationships between elements derived from vertebrate and insect hosts. In fact, the majority
of the vertebrate elements appeared to be most closely related to a group of gypsy LTR-retrotransposons present within fungi. This implies either that at least one horizontal transmission between these two
phyla has occurred previously or that a gypsy LTR-retrotransposon lineage has been lost from insect taxa.
Received: 22 December 1998 / Accepted: 6 April 1999 相似文献
19.
We have determined the genomic structure of an integrin β-subunit gene from the coral, Acropora millepora. The coding region of the gene contains 26 introns, spaced relatively uniformly, and this is significantly more than have
been found in any integrin β-subunit genes from higher animals. Twenty-five of the 26 coral introns are also found in a β-subunit
gene from at least one other phylum, indicating that the coral introns are ancestral. While there are some suggestions of
intron gain or sliding, the predominant theme seen in the homologues from higher animals is extensive intron loss. The coral
baseline allows one to infer that a number of introns found in only one phylum of higher animals result from frequent intron
loss, as opposed to the seemingly more parsimonious alternative of isolated intron gain. The patterns of intron loss confirm
results from protein sequences that most of the vertebrate genes, with the exception of β4, belong to one of two β subunit
families. The similarity of the patterns within each of the β1,2,7 and β3,5,6,8 groups indicates that these gene structures
have been very stable since early vertebrate evolution. Intron loss has been more extensive in the invertebrate genes, and
obvious patterns have yet to emerge in this more limited data set.
Received: 5 March 2001 / Accepted: 17 May 2001 相似文献
20.
Base composition is not uniform across the genome of Drosophila melanogaster. Earlier analyses have suggested that there is variation in composition in D. melanogaster on both a large scale and a much smaller, within-gene, scale. Here we present analyses on 117 genes which have reliable intron/exon
boundaries and no known alternative splicing. We detect significant heterogeneity in G+C content among intron segments from
the same gene, as well as a significant positive correlation between the intron and the third codon position G+C content within
genes. Both of these observations appear to be due, in part, to an overall decline in intron and third codon position G+C
content along Drosophila genes with introns. However, there is also evidence of an increase in third codon position G+C content at the start of genes;
this is particularly evident in genes without introns. This is consistent with selection acting against preferred codons at
the start of genes.
Received: 24 February 1997 / Accepted: 10 November 1997 相似文献