How the snake got its venom
The venom of advanced snakes is a mixture of dozens of different proteins and is an example of an evolutionary innovation 鈥 a novel trait that has arisen in a particular animal group and which has contributed to their success. Understanding how these innovations come about is vital to understanding larger patterns of animal evolution and can shed important light on the genetic basis of differences between species, with clear implications for the effectiveness of treatment of victims of bites by venomous snakes, where venom composition varies both within and between species.
Researchers in the at 香港六合彩挂牌资料 studied venom and salivary glands, together with other body tissues from a range of venomous and non-venomous reptiles to identify the evolutionary processes underlying the origin of snake venom toxins. Writing in in the journal (doi: 10.1093/gbe/evu166), 香港六合彩挂牌资料 PhD student Adam Hargreaves and his supervisor Dr John Mulley, together with colleagues at the and the at Aberystwyth University show that the proteins in snake venom which are responsible for injury or death following bites are derived from proteins normally expressed in a wide range of body tissues, not just the venom or salivary gland.
The genes encoding these proteins have been duplicated at some point in the past and one of the resulting copies has been restricted to the venom gland, where natural selection has acted to develop or increase toxicity. This differs from the long-standing hypothesis that venom proteins are 鈥渞ecruited鈥 from body tissues, in the sense that these proteins are already expressed in the venom or salivary gland prior to becoming toxic.
Adam Hargreaves explained: 鈥淥ur work shows that genes which have gone on to duplicate and mutate to produce venom toxins were ancestrally expressed in lots of body tissues, including the salivary gland of non-venomous reptiles. This is different to the previously accepted idea that the genes were recruited from different body tissues to the venom gland. Our results give us a new insight into how venom toxins evolved in reptiles which we can use as a starting point to better understand the origins of this remarkable evolutionary adaptation, and also to aid research efforts into developing better treatments for victims of snakebite.鈥
The research was supported by the Royal Society, the Wellcome Trust and the Biosciences, Environment and Agriculture Alliance between 香港六合彩挂牌资料 and Aberystwyth universities, with analyses carried out using infrastructure.
Publication date: 11 August 2014