Abstract
The longstanding view of how proliferative outgrowth terminates following the patterning phase of limb development involves the breakdown of reciprocal extrinsic signalling between the mesenchyme and the overlying epithelium (e-m signalling). However, by grafting mesenchyme cells from late stage chick wing buds to an early epithelial environment we show that this mechanism is not required. RNA sequencing reveals that mesenchyme cells terminate growth by an intrinsic cell cycle timer in the presence of e-m signalling. In this process, e-m signalling is required permissively to allow the intrinsic cell cycle timer to run its course. We provide evidence that a temporal switch from BMP antagonism to BMP signalling controls the intrinsic cell cycle timer during limb outgrowth. Our findings have general implications for other patterning systems in which extrinsic signals and intrinsic timers are integrated.