Abstract
Nuclear receptors (NRs), a series of key transcription factors that are mostly activated by endogenous ligands or environmental xenobiotics, are reportedly good phylogenetic markers of animal genome evolution. As the early diverging class of bilaterians, however, a comprehensive view of the NR family in a marine free-living flatworm Macrostomum lignano and comparative information in flatworms are still lacking, which is of significance to address the evolutionary diversification of the NR family and imply the adaptive evolution in the early diverging Bilateria. Herein, a total of 51, 26, and 23 putative NR genes were identified in M. lignano, Sparganum proliferum, and Clonorchis sinensis, respectively, which were classified into eight subfamilies, implying an extensive expansion of the NR family in M. lignano. It is presumed that the extensive expansion was mainly attributed to the M. lignano-specific hidden polyploidy, segmental, and tandem duplication events. The duplicated NR pairs in M. lignano and the NR orthologs in flatworms all experienced the purifying selection. Phylogenetic analyses indicated the presence of NR3-like genes in M. lignano, which is first reported in flatworms. Intron loss and reduced intron size were mainly contributed to the structural divergence of NR genes in flatworms. The combined data provide indispensable information for a better understanding of the complexity and the adaptive evolution of the NR gene family in metazoans.
Highlights
Nuclear receptor (NR) gene superfamily comprises a large group of ligand-regulated transcription factors which are involved in various functions such as reproduction, differentiation, development, homeostasis, metabolism, and metamorphosis (Bain et al, 2007; Bodofsky et al, 2017; Lazar, 2017)
Our analyses suggest an extensive expansion of the NR gene family with 51 members in M. lignano as compared to the other flatworm species (17– 26 members)
The NR3-like genes were identified in M. lignano, which is not presented in the other flatworms
Summary
Nuclear receptor (NR) gene superfamily comprises a large group of ligand-regulated transcription factors which are involved in various functions such as reproduction, differentiation, development, homeostasis, metabolism, and metamorphosis (Bain et al, 2007; Bodofsky et al, 2017; Lazar, 2017). Characterized by the most conserved domains DBD and LBD, the typical NRs are clustered into seven subfamilies, NR1–NR6 and NR8 (Auwerx et al, 1999; Huang et al, 2015). Atypical NRs are grouped into NR0 with either DBD (NR0A) or LBD (NR0B) and NR7 with two DBD and an LBD in some animal lineages (Wu et al, 2007; Alvite et al, 2019). All ctenophore NRs were atypical without a DBD domain (Reitzel et al, 2011)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
