This image shows a snake embryo. |
Despite obvious differences in size and shapes observed among different vertebrate animals, they all have bodies with a head and neck, a trunk and a tail. It is the relative size of each of these body sections what makes a large part of the body differences among these animals. Still, all vertebrates develop by consecutive phases, forming each region of the body in a specific order, from head to tail. The development is guided by genetic instructions that inform the beginning and the end of each body region's formation. Moisés Mallo's laboratory has been trying to crack the genetic code that controls trunk and tail development in vertebrates. In order to achieve it, they studied mice that had particularly long or especially short trunks. "We thought that the analysis of these animals could give us the key to unveil the code of trunk formation," says Moisés Mallo.
Their experiments led to the surprising finding that the key controller of trunk development was the Oct4 gene, one of the essential regulators of stem cells. Since many other vertebrates also have Oct4, this gene could play similar roles in other animals and might even be responsible for the exceptionally long trunks of snakes. Rita Aires, first author of this study, explains: "We had found that Oct4 is the switch that leads to trunk formation, still we couldn't explain the different trunk length observed in vertebrates, particularly in snakes. Therefore, we tested if this switch was being turned on or off during different periods of embryonic development in snakes compared to mice."
The researchers discovered that the Oct4 gene was indeed kept active during a longer period of time in snakes when compared to other animals. They also showed that this resulted from changes in the snake genome that happened during reptile evolution, which placed the Oct4 gene next to a DNA region that keeps this gene in an "ON" state during long periods of embryonic development.
"The formation of different body regions works as a strong-arm contest of genes. Genes involved in trunk formation need to start ceasing activity so that the genes involved in tail formation can start working. In the case of snakes, we observed that the Oct4 gene is kept active during a longer period of embryonic development, which explains why snakes have such a long trunk and a very short tail," says Rita Aires.
Read more at Science Daily
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