A developmental timing switch promotes axon outgrowth independent of known guidance receptors.

A developmental timing switch promotes axon outgrowth independent of known guidance receptors.

Blog Article

To form functional neuronal connections, axon outgrowth and guidance must be tightly regulated across space as well as time.While a number of genes and pathways have been shown to control spatial features of axon development, very little is known Neuro Optimizer about the in vivo mechanisms that direct the timing of axon initiation and elongation.The Caenorhabditis elegans hermaphrodite specific motor neurons (HSNs) extend a single axon ventrally and then anteriorly during the L4 larval stage.Here we show the lin-4 microRNA promotes HSN axon initiation after cell cycle withdrawal.

Axons fail to form in lin-4 mutants, while they grow prematurely in lin-4-overexpressing animals.lin-4 is required to down-regulate two inhibitors of HSN TROUSERS SPLIT SUIT BYRON differentiation--the transcriptional regulator LIN-14 and the "stemness" factor LIN-28--and it likely does so through a cell-autonomous mechanism.This developmental switch depends neither on the UNC-40/DCC and SAX-3/Robo receptors nor on the direction of axon growth, demonstrating that it acts independently of ventral guidance signals to control the timing of HSN axon elongation.