Caenorhabditis elegans dpy-14: an essential collagen gene with unique expression profile and physiological roles in early development.

We describe the molecular characterisation of Caenorhabditis elegans dpy-14, a gene encoding an essential cuticular collagen annotated as col-59. Expression of dpy-14 starts at the 16 E cell stage, making it the earliest-expressing collagen reported to date. SAGE data and dpy-14 promoter::GFP reporter constructs indicate that the gene is transcribed mainly during embryogenesis, specifically in ciliated neurons and hypoderm. Water permeability assays and lectin staining showed that a mutation in the DPY-14 collagen results in defects in the channels of the amphids, which are a class of ciliated neuron, while the amphids appear morphologically normal by dye filling methods. Behavioural assays showed that the ciliated neurons expressing the gene are functional in dpy-14 mutants. All together, our data suggest that ciliated neurons and their hypodermal support cells collaborate in the transcription and synthesis of DPY-14, which then becomes a component of the amphid channels but not of the amphids proper. Interestingly, seam cells of dpy-14 mutants do not properly fuse to form a syncytium. This novel phenotype due to collagen mutations further stresses that dpy-14 plays a fundamental role in C. elegans physiology, since it is required for the proper development of the hypoderm.