Abstract

In insect Drosophila melanogaster, ventral midline cells are crucial to formation of the central nervous system (CNS) and have roles in the specification of ectodermal neuroblasts. Notably, midline cells also have more recently recognized roles in the formation of the higher crustacean Parhyale dorso-ventral axis. The single-minded is a master regulator of ventral midline cells and is required for these functions. Recently sim expression patterns have been reported in various arthropods. These results suggest that the midline precursors evolved from ventral neuroectoderm of common ancestor Mandibulata. However, sim function has been only analyzed in few organisms. To investigate whether these functions of sim, the gene encoding Single-minded, are conserved among insects and crustaceans, we examined the embryonic expression pattern of a lower crustacean Daphnia sim homolog (dma sim) and analyzed the function of dma sim during embryonic development. The Dma Sim protein was expressed in the ventral neuroectoderm (like in onychophoran and chelicerate) and midline (like in mandibulatan). In addition to this conserved ventral neuroectoderm and midline expression, Dma Sim was expressed outside the ventral midline; it was expressed in maxilla 2, presumptive shell glands, and other tissues. To investigate dma sim function, we used RNA interference (RNAi) to inhibit dma sim in Daphnia embryos. Embryos subjected to dma sim RNAi exhibited improper axon tract formation and abnormal limb and ventral development. Furthermore, RNAi-mediated knockdown of dma slit, a putative Dma Sim target gene, resulted in similar embryonic phenotypes. These results indicated that dma sim might be required for proper dma slit-mediated ventral development in addition to being required for a conserved role in the ventral midline. Our findings indicated that sim homologs might have provided different developmental functions to ventral midline cells during metazoan evolution.

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