Compartir
Development and Regeneration of the Nervous System (en Inglés)
Nona, S. ; Cronly-Dillon, J. R. ; Ferguson, M. J. W. (Autor)
·
Springer
· Tapa Blanda
Development and Regeneration of the Nervous System (en Inglés) - Nona, S. ; Cronly-Dillon, J. R. ; Ferguson, M. J. W.
$ 258.497
$ 430.829
Ahorras: $ 172.331
Elige la lista en la que quieres agregar tu producto o crea una nueva lista
✓ Producto agregado correctamente a la lista de deseos.
Ir a Mis Listas
Origen: Estados Unidos
(Costos de importación incluídos en el precio)
Se enviará desde nuestra bodega entre el
Lunes 19 de Agosto y el
Lunes 02 de Septiembre.
Lo recibirás en cualquier lugar de Argentina entre 1 y 3 días hábiles luego del envío.
Reseña del libro "Development and Regeneration of the Nervous System (en Inglés)"
This book explores aspects of the development and regeneration of the of the rote nervaus system, beginning with fundamental considerations of borneobox genes in vertebrate pattern formation. Two papers em- phasize the roJe of mause Hox genes in patterning: the Hox-2 complex in the branchial arches and Hox-7 at later stages of development, par- ticularly in the spinal cord and brain. The importance of borneobox genes and other transcription factors in patterning the Drosophila embryo is weil known. With the discovery of homologaus genes in higher verte- brates including man, we now possess the molecular tools to begin to investigate the molecular basis of patterning in higher vertebrate em- bryos. Interestingly, the last few years have seen the discovery of a number of diverged borneobox genes and other transcription factors in the head, such genes being arranged in a segmental pattern within the developing rhombomeres of the brain and such compartmentalization of expression being extended to their derivatives, tagether with those of the neural crest. More recently, both Hox genes and Pax genes have been described in a segmental arrangement as far torward as the developing forebrain. The majority of the book deals with regeneration of the nervaus system. Several aspects are explored, including ways of promoting central nervous system axons to grow back into a degenerating environment, for example by the use of complex polymeric matrices.
