Fang Zongxi Center for Marine Evo-Devo & MOE Key Laboratory of Marine Genetics and Breeding, Ocean University of China, Qingdao, 266003, China.
Laboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology, Qingdao, 266237, China.
Mar Biotechnol (NY). 2024 Nov 29;27(1):15. doi: 10.1007/s10126-024-10388-8.
LncRNAs are long non-coding RNAs that are widely recognized as crucial regulators of gene expression and metabolic control, involved in numerous dormancy-related processes. Aestivation is a common hypometabolism strategy of sea cucumber (Apostichopus japonicus) in response to high-temperature conditions and is typically characterized by the degradation of the intestine and respiratory tree. Although the aestivation process has been extensively studied in sea cucumbers, the role of lncRNAs in the context of aestivation states remains a conspicuous knowledge gap. Here, we identified and characterized 14,711 lncRNAs in A. japonicus and analyzed their differential expression patterns during the aestivation process in the intestine and respiratory tree. The results revealed the physiological differences, especially the metabolic processes, between the intestine and respiratory tree during the aestivation. The co-expression network of lncRNA-mRNA suggested the dominant role of lncRNA in regulating the differential response of the intestine and respiratory trees. Differentially co-expressed factors were significantly enriched in the deep-aestivation stage-specific modules. Conserved co-expressed factors included several transcription factors known to be involved in rhythm regulation, such as Klf2 and Egr1. Furthermore, a specific trans-acting lncRNA (lncrna.1393.1) was identified as a potential regulator of Klf2 and Egr1. Overall, the systematic identification, characterization, and expression analysis of lncRNAs in A. japonicus enhanced our knowledge of long non-coding regulation of aestivation in sea cucumber and provided new clues for understanding the common "toolkit" of dormancy regulatory mechanisms.
lncRNAs 是长非编码 RNA,被广泛认为是基因表达和代谢调控的关键调节因子,参与了许多与休眠相关的过程。夏眠是海参(Apostichopus japonicus)应对高温条件的一种常见低代谢策略,其典型特征是肠道和呼吸树的退化。尽管海参的夏眠过程已经得到了广泛的研究,但 lncRNAs 在夏眠状态下的作用仍然是一个明显的知识空白。在这里,我们在 A. japonicus 中鉴定和描述了 14711 个 lncRNAs,并分析了它们在肠道和呼吸树夏眠过程中的差异表达模式。结果揭示了肠道和呼吸树在夏眠过程中的生理差异,特别是代谢过程。lncRNA-mRNA 的共表达网络表明 lncRNA 在调节肠道和呼吸树的差异反应中起着主导作用。差异共表达因子在深夏眠阶段特异性模块中显著富集。保守的共表达因子包括几个已知参与节律调节的转录因子,如 Klf2 和 Egr1。此外,还鉴定了一个特定的反式作用 lncRNA(lncrna.1393.1),它可能是 Klf2 和 Egr1 的调节剂。总之,A. japonicus 中 lncRNAs 的系统鉴定、描述和表达分析增强了我们对海参夏眠长非编码调控的认识,并为理解休眠调节机制的共同“工具包”提供了新的线索。
