The proprioceptive and contractile systems in Drosophila are both patterned by the EGR family transcription factor Stripe
Abstract
Coordinated locomotion of Drosophila larvae depends on accurate patterning and stable attachment to the cuticle of both muscles and proprioceptors (chordotonal organs). Unlike muscle spindles in mammals, the fly chordotonal organs are not embedded in the body-wall muscles. Yet, the contractile system (muscles and tendons) and the chordotonal organs constitute two parts of a single functional unit that controls locomotion, and thus must be patterned in full coordination. It is not known how such coordination is achieved. Here we show that the positioning and differentiation of the migrating chordotonal organs are instructed by Stripe, the same transcription factor that promotes tendon cell specification and differentiation and is required for normal patterning of the contractile system. Our data demonstrate that although chordotonal organs are patterned in a Stripe-dependent mechanism similarly to muscles, this mechanism is independent of Stripe activity in tendon cells. Thus, the two parts of the locomotive system use similar but independent patterning mechanisms that converge to form a functional unit. Stripe plays at least a dual role in chordotonal development. It is required within the ligament cells for terminal differenti...Continue Reading
References
Muscle-dependent maturation of tendon cells is induced by post-transcriptional regulation of stripeA
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