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121.
Over the past decade genomic approaches have begun to revolutionise the study of animal diversity. In particular, genome sequencing programmes have spread beyond the traditional model species to encompass an increasing diversity of animals from many different phyla, as well as unicellular eukaryotes that are closely related to the animals. Whole genome sequences allow researchers to establish, with reasonable confidence, the full complement of any particular family of genes in a genome. Comparison of gene complements from appropriate genomes can reveal the evolutionary history of gene families, indicating when both gene diversification and gene loss have occurred. More than that, however, assembled genomes allow the genomic environment in which individual genes are found to be analysed and compared between species. This can reveal how gene diversification occurred. Here, we focus on the Fox genes, drawing from multiple animal genomes to develop an evolutionary framework explaining the timing and mechanism of origin of the diversity of animal Fox genes. Ancient linkages between genes are a prominent feature of the Fox genes, depicting a history of gene clusters, some of which may be relevant to understanding Fox gene function. 相似文献
122.
123.
Benjamin Marie Arul Marie Daniel J Jackson Lionel Dubost Bernard M Degnan Christian Milet Frédéric Marin 《Proteome science》2010,8(1):54
Background
The formation of the molluscan shell is regulated to a large extent by a matrix of extracellular macromolecules that are secreted by the shell forming tissue, the mantle. This so called "calcifying matrix" is a complex mixture of proteins and glycoproteins that is assembled and occluded within the mineral phase during the calcification process. While the importance of the calcifying matrix to shell formation has long been appreciated, most of its protein components remain uncharacterised. 相似文献124.
125.
Structure and expression of conserved Wnt pathway components in the demosponge Amphimedon queenslandica 总被引:2,自引:0,他引:2
Adamska M Larroux C Adamski M Green K Lovas E Koop D Richards GS Zwafink C Degnan BM 《Evolution & development》2010,12(5):494-518
Wnt-signalling plays a critical role in animal development, and its misregulation results in serious human diseases, including cancer. While the Wnt pathway is well studied in eumetazoan models, little is known about the evolutionary origin of its components and their functions. Here, we have identified key machinery of the Wnt-β-catenin (canonical)-signalling pathway that is encoded in the Amphimedon queenslandica (Demospongiae; Porifera) genome, namely Wnt, Fzd, SFRP, Lrp5/6, Dvl, Axin, APC, GSK3, β-catenin, Tcf, and Groucho. Most of these genes are not detected in the choanoflagellate and other nonmetazoan eukaryotic genomes. In contrast, orthologues of some of key components of bilaterian Wnt-planar cell polarity and Wnt/Ca(2+) are absent from the Amphimedon genome, suggesting these pathways evolved after demosponge and eumetazoan lineages diverged. Sequence analysis of the identified proteins of the Wnt-β-catenin pathway has revealed the presence of most of the conserved motifs and domains responsible for protein-protein and protein-DNA interactions in vertebrates and insects. However, several protein-protein interaction domains appear to be absent from the Amphimedon Axin and APC proteins. These are also missing from their orthologues in the cnidarian Nematostella vectensis, suggesting that they are bilaterian novelties. All of the analyzed Wnt pathway genes are expressed in specific patterns during Amphimedon embryogenesis. Most are expressed in especially striking and highly dynamic patterns during formation of a simple organ-like larval structure, the pigment ring. Overall, our results indicate that the Wnt-β-catenin pathway was used in embryonic patterning in the last common ancestor of living metazoans. Subsequently, gene duplications and a possible increase in complexity of protein interactions have resulted in the precisely regulated Wnt pathway observed in extant bilaterian animals. 相似文献
126.
The lysogenic bacteriophage APSE infects “Candidatus Hamiltonella defensa,” a facultative endosymbiont of aphids and other sap-feeding insects. This endosymbiont has established a beneficial association with aphids, increasing survivorship following attack by parasitoid wasps. Although APSE and “Ca. Hamiltonella defensa” are effectively maternally transmitted between aphid generations, they can also be horizontally transferred among insect hosts, which results in genetically distinct “Ca. Hamiltonella defensa” strains infecting the same aphid species and sporadic distributions of both APSE and “Ca. Hamiltonella defensa” among hosts. Aphids infected only with “Ca. Hamiltonella defensa” have significantly less protection than those infected with both “Ca. Hamiltonella defensa” and APSE. This protection has been proposed to be connected to eukaryote-targeted toxins previously discovered in the genomes of two characterized APSE strains. In this study, we have sequenced partial genomes from seven additional APSE strains to address the evolution and extent of toxin variation in this phage. The APSE lysis region has been a hot spot for nonhomologous recombination of novel virulence cassettes. We identified four new toxins from three protein families, Shiga-like toxin, cytolethal distending toxin, and YD-repeat toxins. These recombination events have also resulted in reassortment of the downstream lysozyme and holin genes. Analysis of the conserved APSE genes flanking the variable toxin cassettes reveals a close phylogenetic association with phage sequences from two other facultative endosymbionts of insects. Thus, phage may act as a conduit for ongoing gene exchange among heritable endosymbionts. 相似文献
127.
The initiation of metamorphosis in marine invertebrates is strongly linked to the environment. Planktonic larvae typically are induced to settle and metamorphose by external cues such as coralline algae (Corallinaceae, Rhodophyta). Although coralline algae are globally abundant, invertebrate larvae of many taxa settle in response to a very limited suite of species. This specificity impacts population structure, as only locations with the appropriate coralline species can attract new recruits. Abalone (Gastropoda, Haliotidae) are among those taxa in which closely related species are known to respond to different coralline algae. Here we identify highly inductive natural cues of the tropical abalone Haliotis asinina. In contrast to reports for other abalone, the greatest proportion of H. asinina larvae are induced to settle and metamorphose (92.8% to 100% metamorphosis by 48 h postinduction) by articulated corallines of the genus Amphiroa. Comparison with field distribution data for different corallines suggests larvae are likely to be settling on the seaward side of the reef crest. We then compare the response of six different H. asinina larval families to five different coralline species to demonstrate that induction by the best inductive cue (Amphiroa spp.) effectively extinguishes substantial intraspecific variation in the timing of settlement. 相似文献
128.
Sponge genes provide new insight into the evolutionary origin of the neurogenic circuit 总被引:1,自引:0,他引:1
Richards GS Simionato E Perron M Adamska M Vervoort M Degnan BM 《Current biology : CB》2008,18(15):1156-1161
The nerve cell is a eumetazoan (cnidarians and bilaterians) synapomorphy [1]; this cell type is absent in sponges, a more ancient phyletic lineage. Here, we demonstrate that despite lacking neurons, the sponge Amphimedon queenslandica expresses the Notch-Delta signaling system and a proneural basic helix loop helix (bHLH) gene in a manner that resembles the conserved molecular mechanisms of primary neurogenesis in bilaterians. During Amphimedon development, a field of subepithelial cells expresses the Notch receptor, its ligand Delta, and a sponge bHLH gene, AmqbHLH1. Cells that migrate out of this field express AmqDelta1 and give rise to putative sensory cells that populate the larval epithelium. Phylogenetic analysis suggests that AmqbHLH1 is descendent from a single ancestral bHLH gene that later duplicated to produce the atonal/neurogenin-related bHLH gene families, which include most bilaterian proneural genes [2]. By way of functional studies in Xenopus and Drosophila, we demonstrate that AmqbHLH1 has a strong proneural activity in both species with properties displayed by both neurogenin and atonal genes. From these results, we infer that the bilaterian neurogenic circuit, comprising proneural atonal-related bHLH genes coupled with Notch-Delta signaling, was functional in the very first metazoans and was used to generate an ancient sensory cell type. 相似文献
129.
Exposito JY Larroux C Cluzel C Valcourt U Lethias C Degnan BM 《The Journal of biological chemistry》2008,283(42):28226-28235
Collagens are often considered a metazoan hallmark, with the fibril-forming fibrillar collagens present from sponges to human. From evolutionary studies, three fibrillar collagen clades (named A, B, and C) have been defined and shown to be present in mammals, whereas the emergence of the A and B clades predates the protostome/deuterostome split. Moreover, several C clade fibrillar collagen chains are present in some invertebrate deuterostome genomes but not in protostomes whose genomes have been sequenced. The newly sequenced genomes of the choanoflagellate Monosiga brevicollis, the demosponge Amphimedon queenslandica, and the cnidarians Hydra magnipapillata (Hydra) and Nematostella vectensis (sea anemone) allow us to have a better understanding of the origin and evolution of fibrillar collagens. Analysis of these genomes suggests that an ancestral fibrillar collagen gene arose at the dawn of the Metazoa, before the divergence of sponge and eumetazoan lineages. The duplication events leading to the formation of the three fibrillar collagen clades (A, B, and C) occurred before the eumetazoan radiation. Interestingly, only the B clade fibrillar collagens preserved their characteristic modular structure from sponge to human. This observation is compatible with the suggested primordial function of type V/XI fibrillar collagens in the initiation of the formation of the collagen fibrils. 相似文献
130.
Deppong C Degnan JM Murphy TL Murphy KM Green JM 《Journal of immunology (Baltimore, Md. : 1950)》2008,181(5):2973-2979
The initiation, intensity, and duration of T cell-directed inflammatory responses are dependent upon the coordination of both activating and inhibitory signals mediated by specific receptors on the T lymphocyte. The recently described receptor, B and T lymphocyte attenuator (BTLA), has been demonstrated to have an important role in limiting the duration of inflammation in a murine model of allergic asthma. In this study, we have examined the role of BTLA on the proliferation, recruitment, and survival of T cells in response to inhaled allergen. We find that there is decreased cell death in T cells from BTLA-deficient mice, whereas proliferation and recruitment to the lungs are unchanged. Thus, the regulation of cell death through BTLA signaling is a key determinant of the inflammatory response in the lung. 相似文献