In each abdominal hemisegment of the Drosophila embryo, an array of 30
muscle fibers is innervated by about 34 motoneurons in a highly stere
otyped and cell-specific fashion. To begin to elucidate the molecular
basis of neural specificity in this system, we conducted a genetic scr
een for mutations affecting neuromuscular connectivity. We focus on 5
genes required for specific aspects of pathway (beaten path, stranded,
and short stop) and target (walkabout and clueless) recognition. The
different classes of mutant phenotypes suggest that neural specificity
is controlled by a hierarchy of molecular mechanisms: motoneurons are
guided toward the correct region of mesoderm, in many cases navigatin
g a series of choice points along the way; they then display an affini
ty for a particular domain of neighboring muscles; and finally, they r
ecognize their specific muscle target from within this domain.