research article

The role of the Eph-ephrin signalling system in the regulation of developmental patterning

Coulthard, M. G.
Duffy, S.
Down, M.
Show more
2002
International Journal of Developmental Biology

The Eph and ephrin system, consisting of fourteen Eph receptor tyrosine kinase proteins and nine ephrin membrane proteins in vertebrates, has been implicated in the regulation of many critical events during development. Binding of cell surface Eph and ephrin proteins results in bi-directional signals, which regulate the cytoskeletal, adhesive and motile properties of the interacting cells. Through these signals Eph and ephrin proteins are involved in early embryonic cell movements, which establish the germ layers, cell movements involved in formation of tissue boundaries and the pathfinding of axons. This review focuses on two vertebrate models, the zebrafish and mouse, in which experimental perturbation of Eph and/or ephrin expression in vivo have provided important insights into the role and functioning of the Eph/ephrin system.

Type
research article
DOI
10.1387/ijdb.12141423
Scopus ID

2-s2.0-0036356054

Author(s)
Coulthard, M. G.
Duffy, S.
Down, M.
Evans, B.
Power, M.
Smith, F.
Stylianou, C.
Kleikamp, S.
Oates, A.  
Lackmann, M.
Date Issued

2002

Published in
International Journal of Developmental Biology
Volume

46

Issue

4 SPEC.

Start page

375

End page

384

Subjects

Amino Acid

Amino Acid Sequence

animal

Animals

Axons

binding affinity

Biological

biological model

Cancer

cell adhesion

cell motion

cell shape

central nervous system

cytoskeleton

Danio rerio

Developmental biology

embryo development

Eph Family

ephrin

ephrin receptor

Ephrins

Gene expression

gene expression regulation

gene inactivation

gene mapping

gene mutation

glia cell

human

in situ hybridization

in vivo study

Knockout

knockout gene

knockout mouse

ligand

ligand binding

Ligands

metabolism

Mice

Models

molecular genetics

Molecular Sequence Data

mouse

mouse mutant

Mutation

nerve fiber

nonhuman

phenotype

priority journal

protein

protein analysis

protein binding

protein eph

protein function

protein protein interaction

Protein Structure

protein tertiary structure

Receptors

Review

sequence homology

signal transduction

stem cell

Tertiary

transposon

unclassified drug

Vertebrata

vertebrate

zebra fish

zebrafish

Editorial or Peer reviewed

REVIEWED

Written at

OTHER

EPFL units
UPOATES  
Available on Infoscience
May 30, 2017
Use this identifier to reference this record
https://infoscience.epfl.ch/handle/20.500.14299/137791