A cis-regulatory change underlying the motor neuron-specific loss of terminal selector gene expression in immotile tunicate larvae

Abstract: The evolutionary history of animal body plans cannot be fully reconstructed without considering the roles of both novelties and losses. Some of the more remarkable examples of massively parallel evolutionary losses in animals comes from many species in the tunicate genus Molgula that have independently lost the swimming larva and instead develop as tail-less, immotile larvae that bypass the period of swimming and dispersal observed in other tunicates, marine invertebrate chordates that alternate between motile… Show more

“…Although the loss of a differentiated notochord and larval neural structures in Molgula has been documented to a certain extent [195, 316–318], we will focus specifically on the loss of tail muscles. This loss of tail muscle does not appear to involve a loss of the blastomeres that give rise to tail muscles [160] nor the loss of muscle regulatory genes such as Macho - 1, Tbx6 - r, and Mrf, which are still present in the genomes and expressed in the presumptive tail muscle cells in tailless species [130, 131, 310, 320].…”

Regulation and evolution of muscle development in tunicates

“…Although the loss of a differentiated notochord and larval neural structures in Molgula has been documented to a certain extent [195, 316–318], we will focus specifically on the loss of tail muscles. This loss of tail muscle does not appear to involve a loss of the blastomeres that give rise to tail muscles [160] nor the loss of muscle regulatory genes such as Macho - 1, Tbx6 - r, and Mrf, which are still present in the genomes and expressed in the presumptive tail muscle cells in tailless species [130, 131, 310, 320].…”

Regulation and evolution of muscle development in tunicates