FGF Signalling in Vertebrate Development

Research output: Chapter in Book/Report/Conference proceedingOther chapter contribution

Standard

FGF Signalling in Vertebrate Development. / Isaacs, Harry Victor; Pownall, Betsy.

Colloquium Series on Developmental Biology. Morgan and Claypool, 2010. (Colloquium Series on Developmental Biology).

Research output: Chapter in Book/Report/Conference proceedingOther chapter contribution

Harvard

Isaacs, HV & Pownall, B 2010, FGF Signalling in Vertebrate Development. in Colloquium Series on Developmental Biology. Colloquium Series on Developmental Biology, Morgan and Claypool. <http://www.morganclaypool.com/toc/deb/1/1>

APA

Isaacs, H. V., & Pownall, B. (2010). FGF Signalling in Vertebrate Development. In Colloquium Series on Developmental Biology (Colloquium Series on Developmental Biology). Morgan and Claypool. http://www.morganclaypool.com/toc/deb/1/1

Vancouver

Isaacs HV, Pownall B. FGF Signalling in Vertebrate Development. In Colloquium Series on Developmental Biology. Morgan and Claypool. 2010. (Colloquium Series on Developmental Biology).

Author

Isaacs, Harry Victor ; Pownall, Betsy. / FGF Signalling in Vertebrate Development. Colloquium Series on Developmental Biology. Morgan and Claypool, 2010. (Colloquium Series on Developmental Biology).

Bibtex - Download

@inbook{d8ba9ca46e9246f6bbeb2c79e57f2762,
title = "FGF Signalling in Vertebrate Development",
abstract = "The fibroblast growth factors (FGFs) represent one of the relatively few families of extracellular signalling peptides that have been shown in recent decades to be key regulators of metazoan development. FGFs are required for multiple processes in both protostome and deuterostome groups. Given the wide range of regulatory roles attributed to the FGFs, it is perhaps not surprising that misregulation of this signalling pathway has been implicated in a number of human disease conditions. The focus of the present review is to look at the fundamental components of the FGF pathway and illustrate how this highly conserved regulatory cassette has been deployed to regulate multiple, diverse processes during vertebrate development. This review will explore examples from several vertebrate model organisms and include discussions of the role of FGF signalling in regulating the establishment of the mesoderm, neural patterning, morphogenesis, myogenesis, limb development, and the establishment of right–left asymmetry",
author = "Isaacs, {Harry Victor} and Betsy Pownall",
year = "2010",
language = "English",
isbn = "978-1615040636",
series = "Colloquium Series on Developmental Biology",
publisher = "Morgan and Claypool",
booktitle = "Colloquium Series on Developmental Biology",

}

RIS (suitable for import to EndNote) - Download

TY - CHAP

T1 - FGF Signalling in Vertebrate Development

AU - Isaacs, Harry Victor

AU - Pownall, Betsy

PY - 2010

Y1 - 2010

N2 - The fibroblast growth factors (FGFs) represent one of the relatively few families of extracellular signalling peptides that have been shown in recent decades to be key regulators of metazoan development. FGFs are required for multiple processes in both protostome and deuterostome groups. Given the wide range of regulatory roles attributed to the FGFs, it is perhaps not surprising that misregulation of this signalling pathway has been implicated in a number of human disease conditions. The focus of the present review is to look at the fundamental components of the FGF pathway and illustrate how this highly conserved regulatory cassette has been deployed to regulate multiple, diverse processes during vertebrate development. This review will explore examples from several vertebrate model organisms and include discussions of the role of FGF signalling in regulating the establishment of the mesoderm, neural patterning, morphogenesis, myogenesis, limb development, and the establishment of right–left asymmetry

AB - The fibroblast growth factors (FGFs) represent one of the relatively few families of extracellular signalling peptides that have been shown in recent decades to be key regulators of metazoan development. FGFs are required for multiple processes in both protostome and deuterostome groups. Given the wide range of regulatory roles attributed to the FGFs, it is perhaps not surprising that misregulation of this signalling pathway has been implicated in a number of human disease conditions. The focus of the present review is to look at the fundamental components of the FGF pathway and illustrate how this highly conserved regulatory cassette has been deployed to regulate multiple, diverse processes during vertebrate development. This review will explore examples from several vertebrate model organisms and include discussions of the role of FGF signalling in regulating the establishment of the mesoderm, neural patterning, morphogenesis, myogenesis, limb development, and the establishment of right–left asymmetry

M3 - Other chapter contribution

SN - 978-1615040636

T3 - Colloquium Series on Developmental Biology

BT - Colloquium Series on Developmental Biology

PB - Morgan and Claypool

ER -