Key Laboratory of Aquacultural Resources and Utilization, Ministry of Education, College of Fisheries and Life Sciences, Shanghai Ocean University, Shanghai, 201306, China.
Key Laboratory of Sustainable Exploitation of Oceanic Fisheries Resources, Ministry of Education, College of Marine Sciences, Shanghai Ocean University, Shanghai, 201306, China.
Sci Rep. 2016 Jun 30;6:28952. doi: 10.1038/srep28952.
Transcriptional plasticity is a major driver of phenotypic differences between species. The lower temperature limit (LTL), namely the lower end of survival temperature, is an important trait delimiting the geographical distribution of a species, however, the genetic mechanisms are poorly understood. We investigated the inter-species transcriptional diversification in cold responses between zebrafish Danio rerio and tilapia Oreochromis niloticus, which were reared at a common temperature (28 °C) but have distinct LTLs. We identified significant expressional divergence between the two species in the orthologous genes from gills when the temperature cooled to the LTL of tilapia (8 °C). Five KEGG pathways were found sequentially over-represented in the zebrafish/tilapia divergently expressed genes in the duration (12 hour) of 8 °C exposure, forming a signaling cascade from metabolic regulation to apoptosis via FoxO signaling. Consistently, we found differential progression of apoptosis in the gills of the two species in which zebrafish manifested a delayed and milder apoptotic phenotype than tilapia, corresponding with a lower LTL of zebrafish. We identified diverged expression in 25 apoptosis-related transcription factors between the two species which forms an interacting network with diverged factors involving the FoxO signaling and metabolic regulation. We propose a genetic network which regulates LTL in fishes.
转录可塑性是物种间表型差异的主要驱动因素。低温极限(LTL),即生存温度的下限,是限制物种地理分布的重要特征,但遗传机制尚不清楚。我们研究了斑马鱼 Danio rerio 和罗非鱼 Oreochromis niloticus 在 28°C 下共同培养时,对冷反应的种间转录多样化,它们具有不同的 LTL。当温度冷却到罗非鱼的 LTL(8°C)时,我们在鳃的同源基因中发现了两个物种之间显著的表达差异。在 8°C 暴露 12 小时的过程中,在斑马鱼/罗非鱼差异表达基因中发现了五个KEGG 途径依次过度表达,形成了一个从代谢调节到 FoxO 信号的凋亡信号级联。一致地,我们发现两种鱼的鳃中凋亡的差异进展,其中斑马鱼的凋亡表型比罗非鱼延迟且温和,这与斑马鱼的 LTL 较低相对应。我们在两个物种之间鉴定出了 25 个与凋亡相关的转录因子的差异表达,它们形成了一个与 FoxO 信号和代谢调节相关的差异因子相互作用网络。我们提出了一个调节鱼类 LTL 的遗传网络。
