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eatly in complexity. This study has investigated the differential evolution of JAK-STAT pathway components since the formation of the canonical, cytokine receptor-regulated JAK-STAT signaling pathway, providing new insights into the process, with implications for immune system evolution. Results To gain insight into JAK-STAT pathway evolution, a comprehensive bioinformatic strategy was employed to identify and characterize JAK, STAT, SHP, PIAS, and SOCS genes from a range of relevant organisms. Evolution of JAK-STAT Pathway Components JAK evolution A single JAK homologue has been found in both fruit fly and sea squirt . Mammals possess four family members , with previous studies identifying a JAK1 orthologue and two JAK2 paralogs in zebrafish. Bioinformatic approaches were used to complete the partial zebrafish jak2b sequence as well as identify two additional JAK family members in this organism, the expression of which were confirmed by RT-PCR. Phylogenetic analysis identified these as orthologs for JAK3 and TYK2, assignments that were supported by conserved synteny data, including multiple genes in the case of jak3, or a single gene in the case of tyk2. Comparative analysis of the green pufferfish genome Eglumetad site revealed the PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22187342 presence of an identical set of JAK genes, including both jak2a and jak2b. In contrast, chicken was found to possess the same JAK complement as mammals, including a single jak2, providing evidence that there has been duplication of this gene specifically in teleosts. Phylogenetic analyses also indicated a closer evolutionary relationship between two gene pairs, the JAK1 and TYK2 pair and the JAK2 and JAK3 pair. This was also supported by conserved syntenic relationships with RAVER-related genes for JAK1 and TYK2, as well as INSL- and KCNN-related genes for JAK2 and JAK3, while association with SLC-related genes for JAK1, JAK2, and JAK3 is consistent with a common evolutionary ancestry. All vertebrate JAK proteins possessed equivalent JH1-7 domains that were conserved across all members, with several residues, including a dityrosine within the kinase domain, being wholly conserved. Intron/exon structures were identical across all JAK genes with the exception of zebrafish jak2a, which possesses an additional exon that encodes its leader sequence. 3 Evolution of JAK-STAT Pathway Components STAT evolution Fruit fly possesses a single STAT gene , whilst sea squirt has two STAT genes . In contrast, there are seven STAT members in mammals, which exist in three clusters: STAT1 and STAT4 lying adjacent, STAT3, STAT5A and STAT5B lying adjacent, with STAT2 and STAT6 located proximally on the same chromosome. Previous work in zebrafish has identified single stat1 and stat3 genes, as well as duplicate stat5 genes, stat5.1 and stat5.2, that were derived independently of the STAT5A and STAT5B duplication in mammals. In silico analysis revealed the presence of five additional STAT sequences in zebrafish, the expression of which were confirmed by RT-PCR. Phylogenetic analysis identified one of these as an additional STAT1 paralog, designated stat1b, one as a stat1 pseudogene, as well as single teleost stat2, stat4 and stat6 orthologs. The STAT gene designations were generally well-supported by conserved synteny. For example, teleost stat1b and stat4 lay adjacent, like mammalian STAT1 and STAT4, with further conserved synteny of several adjacent genes. The teleost-specific stat1a genes were also flanked by paralogs to several of these, whi

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Author: Adenosylmethionine- apoptosisinducer