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Evolution: Hox genes and the cellared wine principle

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Presentation on theme: "Evolution: Hox genes and the cellared wine principle"— Presentation transcript:

1 Evolution: Hox genes and the cellared wine principle
Greg Gibson  Current Biology  Volume 10, Issue 12, Pages R452-R455 (June 2000) DOI: /S (00)

2 Figure 1 Two models for the evolution of ftz. In duplication and loss models (a) it is assumed that, at some point in protostome evolution, there was a duplication of a Hox 6 ortholog that allowed one copy to retain its homeotic function in the Lophotrochozoan clade (left), while the other copy evolved a new segmentation function in some arthropods (right). The timing of the proposed duplication and loss events cannot be established without extensive phylogenetic sampling, and it is possible that such events have occurred numerous times in invertebrate evolution. More parsimonious models of functional transformation (b) posit that ftz has simply shed its old homeotic role and in several steps has evolved a new segmentation function. Vestiges of this transformation can be seen by examining expression of Hox 6 orthologs in basal arthropods such as mites [5]. Current Biology  , R452-R455DOI: ( /S (00) )

3 Figure 2 Demonstration of the ability of Hunchback (Hb) to organize thoracic pattern. Each box represents the anteroposterior axis of a Drosophila embryo (anterior to the left), with colored gradients indicating domains of protein expression. In wild-type embryos (a), maternal Bicoid (Bcd) and Hb gradients combine to drive expression of Hb from a zygotic promoter. This expression then contributes to the activation of a late stripe of Hb in parasegment 4 (PS4), the posterior limit of which is set by Knirps protein. After eliminating the zygotic Hb promoter (b), Wimmer et al. [6] still managed to generate weak late PS4 expression by increasing the dosage of maternal Hb and reducing the dosage of Knirps. This resulted in partial rescue of thoracic segments, showing that much of the role of Bcd in the thorax is mediated through Hb. They achieved even stronger rescue of thoracic segmentation after replacing Bicoid (c) with a GAL4 driver that was used to express zygotic Hb in the anterior half of the embryo. Current Biology  , R452-R455DOI: ( /S (00) )

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