The molecular logic of synaptic wiring at the single cell level

Abstract: SUMMARYThe correct wiring of neuronal circuits is one of the most complex processes in development, since axons form highly specific connections out of a vast number of possibilities. Circuit structure is genetically determined in vertebrates and invertebrates, but the mechanism guiding each axon to precisely innervate a unique pre-specified target cell is poorly understood. Here, we used single cell genomics, imaging and genetics to show that single-cell specific connections between motoneurons and target mus… Show more

“…Transcription factors are considered major drivers of cell type identity. Recent studies in C. elegans 69 and in fly motoneurons 70 suggest that unique combinations of homeobox transcription factors are responsible for maintaining cell type identity. Our data show that that also in O. vulgaris , homeobox transcription factors are the most cell type specific.…”

Cell type diversity in a developing octopus brain

“…Transcription factors are considered major drivers of cell type identity. Recent studies in C. elegans 69 and in fly motoneurons 70 suggest that unique combinations of homeobox transcription factors are responsible for maintaining cell type identity. Our data show that that also in O. vulgaris , homeobox transcription factors are the most cell type specific.…”

Cell type diversity in a developing octopus brain

Homeobox genes and the specification of neuronal identity