共查询到20条相似文献,搜索用时 31 毫秒
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Kamm K Schierwater B 《Journal of experimental zoology. Part B. Molecular and developmental evolution》2007,308(6):777-784
Linkage analyses in metazoan genomes suggest two ancestral arrays for the majority of homeobox genes. The related homeobox genes and chromosomal regions that are dispersed in extant species derived possibly from only two single common ancestor regions. One proposed ancestral array, designated as ANTP mega-array, contains most of the ANTP class homeobox genes; the second, named the contraHox super-paralogon, would consist of the classes PRD, POU, LIM, CUT, prospero, TALE and SIX. Here, we report the tight linkage of a POU class 6 gene to an anterior Hox-like gene in the hydrozoan Eleutheria dichotoma and discuss its possible significance for the evolution of homeobox genes. POU class 6 genes also seem to be ancestrally linked to the HoxC and A clusters in vertebrates, despite POU homeobox genes belonging to the contraHox paralogon. Hence, the much tighter linkage of a POU class 6 gene to an anterior Hox-like gene in a cnidarian is possibly the evolutionary echo of an ancestral genomic region from which most metazoan homeobox classes emerged. 相似文献
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Chromosomal mapping of ANTP class homeobox genes in amphioxus: piecing together ancestral genomes 总被引:5,自引:0,他引:5
Homeobox genes encode DNA-binding proteins, many of which are implicated in the control of embryonic development. Evolutionarily, most homeobox genes fall into two related clades: the ANTP and the PRD classes. Some genes in ANTP class, notably Hox, ParaHox, and NK genes, have an intriguing arrangement into physical clusters. To investigate the evolutionary history of these gene clusters, we examined homeobox gene chromosomal locations in the cephalochordate amphioxus, Branchiostoma floridae. We deduce that 22 amphioxus ANTP class homeobox genes localize in just three chromosomes. One contains the Hox cluster plus AmphiEn, AmphiMnx, and AmphiDll. The ParaHox cluster resides in another chromosome, whereas a third chromosome contains the NK type homeobox genes, including AmphiMsx and AmphiTlx. By comparative analysis we infer that clustering of ANTP class homeobox genes evolved just once, during a series of extensive cis-duplication events of genes early in animal evolution. A trans-duplication event occurred later to yield the Hox and ParaHox gene clusters on different chromosomes. The results obtained have implications for understanding the origin of homeobox gene clustering, the diversification of the ANTP class of homeobox genes, and the evolution of animal genomes. 相似文献
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Emili Saló Ana Maria Muñoz-Mármol José Ramon Bayascas-Ramirez Jordi Garcia-Fernàndez Agusti Miralles Andreu Casali Montserrat Corominas Jaume Baguñá 《Hydrobiologia》1995,305(1-3):269-275
To identify potential pattern control and cell determination and/or differentiation genes in the freshwater planarian Dugesial (G.) tigrina, we searched for homeobox genes of different types in the genome of this primitive metazoan. We applied two basic approaches: 1) Screening the cDNA library with degenerate oligonucleotides corresponding to the most conserved amino acid sequence from helix-3 of the homeodomain of each family; and 2) PCR amplification of genomic DNA or cDNA, using two sets of degenerated oligonucleotides corresponding to helices 1 and 3 of the homeodomain or two specific domains of the POU family. Using the first strategy we have identified and characterized two tissue-specific cell determination and/or differentiation NK-type homeobox genes. Using the second strategy we have identified several homeobox genes that belong to the HOM/Hox, paired (prd) or POU families. 相似文献
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The arrangement of Hox genes into physical clusters is fundamental to the patterning of animal body plans. Other homeobox genes are often described as dispersed, with only occasional examples of linkage reported, such as the amphioxus ParaHox and Drosophila 93D/E clusters. This clustering is unlikely to be the derived condition, as the genes of the ParaHox and 93D/E clusters are phylogenetically widespread. To assess whether clustering is retained in mammals, and to infer its history, we considered the distribution of ANTP superclass homeobox genes in human and mouse genomes. We postulate four ancient arrays of ANTP superclass genes in animal genomes, denoted 'extended Hox' (Hox, Evx and Mox), NKL (including NK1, NK3, NK4, Lbx, Tlx, Emx, Vax, Hmx, NK6, Msx), ParaHox (Cdx, Xlox, Gsx) and EHGbox (En, HB9, Gbx). Each of these duplicated in the ancestry of the human genome to yield four Hox, four NKL, four ParaHox and at least two EHGbox clusters or arrays. Two of the human NKL clusters (four in mouse) have subsequently been split by chromosome rearrangement, as has one human EHGbox array. We date all cluster duplications to early chordate evolution and infer that three clusters (Hox, NKL, EHGbox) resided on the same chromosome before duplication. 相似文献
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Hox and other Antennapedia (ANTP)-like homeobox gene subclasses - ParaHox, EHGbox, and NK-like - contribute to key developmental events in bilaterians [1-4]. Evidence of physical clustering of ANTP genes in multiple animal genomes [4-9] suggests that all four subclasses arose via sequential cis-duplication events. Here, we show that Hox genes' origin occurred after the divergence of sponge and eumetazoan lineages and occurred concomitantly with a major evolutionary transition in animal body-plan complexity. By using whole genome information from the demosponge Amphimedon queenslandica, we provide the first conclusive evidence that the earliest metazoans possessed multiple NK-like genes but no Hox, ParaHox, or EHGbox genes. Six of the eight NK-like genes present in the Amphimedon genome are clustered within 71 kb in an order akin to bilaterian NK clusters. We infer that the NK cluster in the last common ancestor to sponges, cnidarians, and bilaterians consisted of at least five genes. It appears that the ProtoHox gene originated from within this ancestral cluster after the divergence of sponge and eumetazoan lineages. The maintenance of the NK cluster in sponges and bilaterians for greater than 550 million years is likely to reflect regulatory constraints inherent to the organization of this ancient cluster. 相似文献
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Kamm K Schierwater B 《Journal of experimental zoology. Part B. Molecular and developmental evolution》2006,306(6):589-596
The origin and evolution of ANTP superclass genes has raised controversial discussions. While recent evidence suggests that a true Hox cluster emerged after the cnidarian bilaterian split, the origin of the ANTP superclass as a whole remains unclear. Based on analyses of bilaterian genomes, it seems very likely that clustering has once been a characteristic of all ANTP homeobox genes and that their ancestors have emerged through several series of cis-duplications from the same genomic region. Since the diploblastic Cnidaria possess orthologs of some non-Hox ANTP genes, at least some steps of the expansion of this hypothetical homeobox gene array must have occurred in the last common ancestor of both lineages--but it is unknown to what extent. By screening the unassembled Nematostella genome, we have identified unambiguous orthologs to almost all non-Hox ANTP genes which are present in Bilateria--with the exception of En, Tlx and (possibly) Vax. Furthermore, Nematostella possesses ANTP genes that are missing in some bilaterian lineages, like the rough gene or NK7. In addition, several ANTP homeobox gene families have been independently duplicated in Nematostella. We conclude that the last cnidarian/bilaterian ancestor already harboured the almost full complement of non-Hox ANTP genes before the Hox system evolved. 相似文献
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The homeobox genes of <Emphasis Type="Italic">Encephalitozoon cuniculi</Emphasis> (Microsporidia) reveal a putative mating-type locus 总被引:1,自引:0,他引:1
Bürglin TR 《Development genes and evolution》2003,213(1):50-52
Homeobox genes have been found in animals, fungi, and plants. Recently, the complete genomic sequence of Encephalitozoon cuniculi has become available and it was shown that this Microsporida species is related to fungi. Given this close relatedness to fungi, I have searched the genome of E. cuniculifor homeobox genes. There are 12 homeobox genes as well as one STE12 orthologue. The large number of homeobox genes when compared to the annotations, which only list one, suggests that possibly other smaller genes may have been overlooked in the published analysis and E. cuniculi may have more than 1,997 genes. Sequence and phylogenetic analyses show that the E. cuniculi homeobox genes also fall into two distinct groups, with two TALE and ten typical homeobox genes being present. Like in the mating-type locus of yeast and other fungi, one TALE and one typical homeobox are found in close proximity of each other on the chromosome, suggesting that Microsporidia also contain a mating-type locus. 相似文献
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Hox cofactors in vertebrate development 总被引:1,自引:0,他引:1
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Garcia-Fernàndez J 《Nature reviews. Genetics》2005,6(12):881-892
Once called the 'Rosetta stone' of developmental biology, the homeobox continues to fascinate both evolutionary and developmental biologists. The birth of the homeotic, or Hox, gene cluster, and its subsequent evolution, has been crucial in mediating the major transitions in metazoan body plan. Comparative genomics studies indicate that the more recently discovered ParaHox and NK clusters were linked to the Hox cluster early in evolution, and that together they constituted a 'megacluster' of homeobox genes that conspicuously contributed to body-plan evolution. 相似文献
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The PBC domain contains a MEINOX domain: Coevolution of Hox and TALE homeobox genes? 总被引:8,自引:0,他引:8
Thomas R. Bürglin 《Development genes and evolution》1998,208(2):113-116
A recent survey of TALE superclass homeobox genes revealed a new domain upstream of the homeodomain that is conserved between
the plant KNOX genes and the animal MEIS genes. At the same time, another paper identified the Drosophila gene homothorax (hth) as a homologue of the vertebrate MEIS genes, which prompted a reexamination of the sequences of the MEIS, KNOX (collectively
named MEINOX) and PBC domains. Similarity of the complete MEINOX domain was found within the PBC domain. This suggests that
the PBC class genes were also derived from the ancient MEINOX genes. Recently, it has been shown that the MEIS genes can interact
with the Abd-B genes, whilst previous results have shown that the PBC genes interact with anterior Hox genes. This leads to
the hypothesis that the duplication of an ancestral MEINOX gene into the PBC and MEIS genes happened at a point in time when
the first two Hox cluster genes, an anterior one and a posterior one, emerged, and that subsequently these gene classes coevolved.
Received: 19 January 1998 / Accepted: 11 February 1998 相似文献
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Comparison of whole genome sequences of representative animals enables reconstruction of the ancestral bilaterian genome: the starting point from which most extant animal lineages evolved. The Hox gene cluster patterns the anterior-posterior axis of bilaterians. Here we show that this cluster was embedded within a larger homeobox gene cluster, the Super-Hox cluster, in the ancestral bilaterian. This Super-Hox cluster contained at least eight genes alongside the core Hox genes ('EuHox' genes). 相似文献