TY - JOUR
T1 - Functional roles of Aves class-specific cis-regulatory elements on macroevolution of bird-specific features
AU - Seki, Ryohei
AU - Li, Cai
AU - Fang, Qi
AU - Hayashi, Shinichi
AU - Egawa, Shiro
AU - Hu, Jiang
AU - Xu, Luohao
AU - Pan, Hailin
AU - Kondo, Mao
AU - Sato, Tomohiko
AU - Matsubara, Haruka
AU - Kamiyama, Namiko
AU - Kitajima, Keiichi
AU - Saito, Daisuke
AU - Liu, Yang
AU - Gilbert, M. Thomas P.
AU - Zhou, Qi
AU - Xu, Xing
AU - Shiroishi, Toshihiko
AU - Irie, Naoki
AU - Tamura, Koji
AU - Zhang, Guojie
N1 - Publisher Copyright:
© The Author(s) 2017.
PY - 2017/2/6
Y1 - 2017/2/6
N2 - Unlike microevolutionary processes, little is known about the genetic basis of macroevolutionary processes. One of these magnificent examples is the transition from non-avian dinosaurs to birds that has created numerous evolutionary innovations such as self-powered flight and its associated wings with flight feathers. By analysing 48 bird genomes, we identified millions of avian-specific highly conserved elements (ASHCEs) that predominantly (>99%) reside in non-coding regions. Many ASHCEs show differential histone modifications that may participate in regulation of limb development. Comparative embryonic gene expression analyses across tetrapod species suggest ASHCE-associated genes have unique roles in developing avian limbs. In particular, we demonstrate how the ASHCE driven avian-specific expression of gene Sim1 driven by ASHCE may be associated with the evolution and development of flight feathers. Together, these findings demonstrate regulatory roles of ASHCEs in the creation of avian-specific traits, and further highlight the importance of cis-regulatory rewiring during macroevolutionary changes.
AB - Unlike microevolutionary processes, little is known about the genetic basis of macroevolutionary processes. One of these magnificent examples is the transition from non-avian dinosaurs to birds that has created numerous evolutionary innovations such as self-powered flight and its associated wings with flight feathers. By analysing 48 bird genomes, we identified millions of avian-specific highly conserved elements (ASHCEs) that predominantly (>99%) reside in non-coding regions. Many ASHCEs show differential histone modifications that may participate in regulation of limb development. Comparative embryonic gene expression analyses across tetrapod species suggest ASHCE-associated genes have unique roles in developing avian limbs. In particular, we demonstrate how the ASHCE driven avian-specific expression of gene Sim1 driven by ASHCE may be associated with the evolution and development of flight feathers. Together, these findings demonstrate regulatory roles of ASHCEs in the creation of avian-specific traits, and further highlight the importance of cis-regulatory rewiring during macroevolutionary changes.
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U2 - 10.1038/ncomms14229
DO - 10.1038/ncomms14229
M3 - Article
C2 - 28165450
AN - SCOPUS:85011884569
SN - 2041-1723
VL - 8
JO - Nature Communications
JF - Nature Communications
M1 - 14229
ER -