Department of Cell and Systems Biology, University of Toronto, Toronto, Ontario, Canada.
PLoS One. 2011;6(8):e23416. doi: 10.1371/journal.pone.0023416. Epub 2011 Aug 25.
Ultraspiracle protein/retinoid X receptor (USP/RXR) is a nuclear receptor and transcription factor which is an essential component of a heterodimeric receptor complex with the ecdysone receptor (EcR). In insects this complex binds ecdysteroids and plays an important role in the regulation of growth, development, metamorphosis and reproduction. In some holometabolous insects, including Lepidoptera and Diptera, USP/RXR is thought to have experienced several important shifts in function. These include the acquisition of novel ligand-binding properties and an expanded dimerization interface with EcR. In light of these recent hypotheses, we implemented codon-based likelihood methods to investigate if the proposed shifts in function are reflected in changes in site-specific evolutionary rates across functional and structural motifs in insect USP/RXR sequences, and if there is any evidence for positive selection at functionally important sites. Our results reveal evidence of positive selection acting on sites within the loop connecting helices H1 and H3, the ligand-binding pocket, and the dimer interface in the holometabolous lineage leading to the Lepidoptera/Diptera/Trichoptera. Similar analyses conducted using EcR sequences did not indicate positive selection. However, analyses allowing for variation across sites demonstrated elevated non-synonymous/synonymous rate ratios (d(N)/d(S)), suggesting relaxed constraint, within the dimerization interface of both USP/RXR and EcR as well as within the coactivator binding groove and helix H12 of USP/RXR. Since the above methods are based on the assumption that d(S) is constant among sites, we also used more recent models which relax this assumption and obtained results consistent with traditional random-sites models. Overall our findings support the evolution of novel function in USP/RXR of more derived holometabolous insects, and are consistent with shifts in structure and function which may have increased USP/RXR reliance on EcR for cofactor recruitment. Moreover, these findings raise important questions regarding hypotheses which suggest the independent activation of USP/RXR by its own ligand.
超气门蛋白/视黄酸 X 受体(USP/RXR)是一种核受体和转录因子,是与蜕皮激素受体(EcR)形成异二聚体受体复合物的必需组成部分。在昆虫中,该复合物结合蜕皮激素,并在调节生长、发育、变态和生殖中发挥重要作用。在一些完全变态的昆虫中,包括鳞翅目和双翅目,USP/RXR 的功能被认为经历了几次重要的转变。这些转变包括获得新的配体结合特性和与 EcR 扩展的二聚化界面。鉴于这些最近的假设,我们实施了基于密码子的似然方法,以研究在昆虫 USP/RXR 序列的功能和结构基序的特定位点的进化速率是否反映了功能转变,如果在功能重要的位点有任何正选择的证据。我们的研究结果表明,在从完全变态到鳞翅目/双翅目/毛翅目的进化过程中,在连接螺旋 H1 和 H3 的环、配体结合口袋和二聚体界面内的特定位点上存在正选择的证据。使用 EcR 序列进行的类似分析并未表明存在正选择。然而,允许跨位点变异的分析表明,在 USP/RXR 和 EcR 的二聚化界面以及 USP/RXR 的共激活子结合槽和螺旋 H12 内,非同义/同义比率(d(N)/d(S))升高,表明约束放松。由于上述方法基于 d(S)在各位点上保持不变的假设,我们还使用了更现代的模型,该模型放宽了这一假设,并获得了与传统随机位点模型一致的结果。总的来说,我们的研究结果支持更衍生的完全变态昆虫的 USP/RXR 中新型功能的进化,并与结构和功能的转变一致,这些转变可能增加了 USP/RXR 对 EcR 共因子募集的依赖。此外,这些发现提出了一些重要的问题,这些问题涉及到 USP/RXR 由其自身配体独立激活的假设。
