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Title: Diversification of four human HOX gene clusters by step-wise evolution rather than ancient whole-genome duplications. Author: Abbasi AA. Journal: Dev Genes Evol; 2015 Nov; 225(6):353-7. PubMed ID: 26481129. Abstract: HOX genes encode transcriptional factors that play a pivotal role in specifying regional identity in nearly every bilateral animal. The birth of HOX gene cluster and its subsequent evolution, either in regulation or function, underlie the evolution of many bilaterian features and hence to the evolutionary radiation of this group. Despite of this importance, evolution of HOX cluster in vertebrates remains largely obscure because the phylogenetic history of these genes is poorly resolved. This has led to the controversy about whether four HOX clusters in human originated through two rounds (2R) of whole-genome duplications or instead evolved by small-scale events early in vertebrate evolution. Recently, the large-scale phylogenetic analysis of triplicate and quadruplicate paralogous regions residing on human HOX-bearing chromosomes provided an unprecedented insight into events that shaped vertebrate genome early in their history. Based on these data and comparative genomic analysis of fruit fly, red floor beetle, and human, this study infers the genic content of minimal HOX locus in the Urbilaterian and reconstructs its duplication history. It appears that four HOX clusters of humans are not remnants of polyploidy events in vertebrate ancestry. Rather, current evidence suggests that one-to-four transition in HOX cluster number occurred by three-step sequential process involving regional duplication events. Therefore, it is concluded that the evolutionary origin of vertebrate novelties, including the complexity of their body, is the consequence of small-scale genetic changes at widely different times over their history.[Abstract] [Full Text] [Related] [New Search]