TY - JOUR
T1 - Cis-regulatory remodeling of the SCL locus during vertebrate evolution
AU - Göttgens, Berthold
AU - Ferreira, Rita
AU - Sanchez, Maria José
AU - Ishibashi, Shoko
AU - Li, Juan
AU - Spensberger, Dominik
AU - Lefevre, Pascal
AU - Ottersbach, Katrin
AU - Chapman, Michael
AU - Kinston, Sarah
AU - Knezevic, Kathy
AU - Hoogenkamp, Maarten
AU - Follows, George A.
AU - Bonifer, Constanze
AU - Amaya, Enrique
AU - Green, Anthony R.
PY - 2010/2/15
Y1 - 2010/2/15
N2 - Development progresses through a sequence of cellular identities which are determined by the activities of networks of transcription factor genes. Alterations in cis-regulatory elements of these genes play a major role in evolutionary change, but little is known about the mechanisms responsible for maintaining conserved patterns of gene expression. We have studied the evolution of cis-regulatory mechanisms controlling the SCL gene, which encodes a key transcriptional regulator of blood, vasculature, and brain development and exhibits conserved function and pattern of expression throughout vertebrate evolution. SCL cis-regulatory elements are conserved between frog and chicken but accrued alterations at an accelerated rate between 310 and 200 million years ago, with subsequent fixation of a new cis-regulatory pattern at the beginning of the mammalian radiation. As aconsequence, orthologous elements shared by mammals and lower vertebrates exhibit functional differences and binding site turnover between widely separated cis-regulatory modules. However, the net effect of these alterations is constancy of overall regulatory inputs and of expression pattern. Our data demonstrate remarkable cis-regulatory remodelling across the SCL locus and indicate that stable patterns of expression can mask extensive regulatory change. These insights illuminate our understanding of vertebrate evolution.
AB - Development progresses through a sequence of cellular identities which are determined by the activities of networks of transcription factor genes. Alterations in cis-regulatory elements of these genes play a major role in evolutionary change, but little is known about the mechanisms responsible for maintaining conserved patterns of gene expression. We have studied the evolution of cis-regulatory mechanisms controlling the SCL gene, which encodes a key transcriptional regulator of blood, vasculature, and brain development and exhibits conserved function and pattern of expression throughout vertebrate evolution. SCL cis-regulatory elements are conserved between frog and chicken but accrued alterations at an accelerated rate between 310 and 200 million years ago, with subsequent fixation of a new cis-regulatory pattern at the beginning of the mammalian radiation. As aconsequence, orthologous elements shared by mammals and lower vertebrates exhibit functional differences and binding site turnover between widely separated cis-regulatory modules. However, the net effect of these alterations is constancy of overall regulatory inputs and of expression pattern. Our data demonstrate remarkable cis-regulatory remodelling across the SCL locus and indicate that stable patterns of expression can mask extensive regulatory change. These insights illuminate our understanding of vertebrate evolution.
UR - http://www.scopus.com/inward/record.url?scp=84862833504&partnerID=8YFLogxK
U2 - 10.1128/MCB.00870-10
DO - 10.1128/MCB.00870-10
M3 - Article
C2 - 20956563
AN - SCOPUS:84862833504
SN - 0270-7306
VL - 30
SP - 5741
EP - 5751
JO - Molecular and Cellular Biology
JF - Molecular and Cellular Biology
IS - 24
ER -