The use of chlorotetracycline to localize calcium in neural crest cells

## Abstract The myelinating and nonmyelinating Schwann cells in peripheral nerves are derived from the neural crest, which is a transient and multipotent embryonic structure that also generates the other main glial subtypes of the peripheral nervous system (PNS). Schwann cell development occurs thr

## Abstract The cranial neural crest has been shown to give rise to a diversity of cells and tissues, including cartilage, bone and connective tissue, in a variety of tetrapods and in the zebrafish. It has been claimed, however, that in the Australian lungfish these tissues are not derived from the

## Abstract Neural crest‐derived cells colonize the entire gastrointestinal tract. The migration of these enteric neural crest‐derived cells (ENCCs) occurs by their formation of cellular strands that extend into the intestinal mesenchyme. We have studied the behavior of crest cells that underlies t

Background: In vertebrate embryos, migration of trunk neural crest cells (NCC) proceeds mainly in two streams: a dorsoventral path between the neural tube and somites, and a dorsolateral one between somites and ectoderm. This last pathway is taken by melanocyte precursor cells (MPC) homing the skin,

## Abstract Summary: This study describes an in utero approach for overexpressing genes in a cell‐type directed manner. It uses an avian leukosis retroviral expression system coupled with a transgenic mouse line expressing the viral receptor __tv‐a__ from a tissue‐specific promoter (RCAS‐TVA system

## Abstract Experiments are reported testing whether the primary control of chromatophore development under the influence of the melanoid gene __(m)__ in the axolotl is exerted by factors intrinsic or extrinsic to the chromatoblasts of the neural crest. Melanoid animals differ from the wild type in