Plant Evolution Evolving Antagonistic Gene Regulatory Networks In general, genes involved in regulatory networks are more likely to be retained than non regulatory genes. figure 2. evolution of network complexity via gene duplication. (a) a hypothetical regulatory network consisting of seven genes (circles) and their interactions. (b) one constituent of the network is duplicated. A new study shows how gene duplication provides a potential source of antagonistic interactions, an important component of gene regulatory networks. main text the rich diversity of structurally complex plants that bring colour and life to the land’s surface trace their origins to a unicellular common ancestor ( figure 1 ).
Plant Evolution Evolving Antagonistic Gene Regulatory Networks Important source of new genes in plants (e.g. [5]). thus, it is clear that gene duplication can supply the raw materials (i.e., genes) for complex regulatory networks. among new genes, duplicated genes have a special significance. while in rare cases horizontally transferred genes can be readily integrated into existing. A new study shows how gene duplication provides a potential source of antagonistic interactions, an important component of gene regulatory networks. discover the world's research 25 million members. This website requires cookies, and the limited processing of your personal data in order to function. by using the site you are agreeing to this as outlined in our privacy notice and cookie policy. Plant evolution: evolving antagonistic gene regulatory networks. plant evolution: evolving antagonistic gene regulatory networks.
Evolution Of Gene Network Controlling Plant Reproductive Development This website requires cookies, and the limited processing of your personal data in order to function. by using the site you are agreeing to this as outlined in our privacy notice and cookie policy. Plant evolution: evolving antagonistic gene regulatory networks. plant evolution: evolving antagonistic gene regulatory networks. Semantic scholar extracted view of "plant evolution: evolving antagonistic gene regulatory networks" by e. cooper. (2016) cooper. current biology. developing a structurally complex phenotype requires a complex regulatory network. a new study shows how gene duplication provides a potential source of antagonistic interactions, an important component of gene regulatory networks.
Comments are closed.