Divergent cis-regulatory evolution underlies the convergent loss of sodium channel expression in electric fish

South American and African weakly electric fish independently evolved electric organs from muscle. In both groups, a voltage-gated sodium channel gene independently lost expression from muscle and gained it in the electric organ, allowing the channel to become specialized for generating electric signals. It is unknown how this voltage-gated sodium channel gene is targeted to muscle in any vertebrate. We describe an enhancer that selectively targets sodium channel expression to muscle. Next, we demonstrate how the loss of this enhancer, but not trans-activating factors, drove the loss of sodium channel gene expression from muscle in South American electric fish. While this enhancer is also altered in African electric fish, key transcription factor binding sites and enhancer activity are retained, suggesting that the convergent loss of sodium channel expression from muscle in these two electric fish lineages occurred via different processes.

Automated summary

South American and African weakly electric fish independently evolved electric organs from muscle, with the sodium channel gene losing expression in muscle and gaining it in the electric organ. The loss of sodium channel expression from muscle in these two electric fish lineages occurred through different processes, while retaining key transcription factor binding sites and enhancer activity.