Abstract
The brown frog (Rana dybowskii) exhibits a wide distribution and is extensively cultured in northeast China. This species undergoes a prolonged period of hibernation lasting from several months to half a year. The frog’s fallopian tubes are considered a valuable tonic medicine known as “Oviducts Ranae” in traditional Chinese medicine. To enhance comprehension of the molecular mechanism underlying the process of emergence from hibernation, a transcriptome-based comparative analysis was performed on differentially expressed genes (DEGs) across various organs of female frogs during hibernation and upon emergence. The organs examined encompassed the brain, liver, spleen, fallopian tube, and ovary. Subsequently, GO and KEGG enrichment analyses were performed to gain further insights into these DEGs. A total of 51,634 transcripts were identified in all five tissues. The spleen exhibited the highest number of DEGs, with 3651 members, while the liver, brain, and fallopian tube had 3182, 3115, and 3186 DEGs, respectively. The ovary had the lowest number of DEGs, with only 1661. Interestingly, only 45 genes were found to be differentially expressed in all five tissues, and GO enrichment analysis revealed distinct functional differences among the DEGs in the various tissues. Only two meaningful DEG-enriched KEGG pathways, “00310 Lysine degradation” and “05202 Transcriptional misregulation in cancer”, were present in all five tissues, and the pathway “B 09182 Protein families: genetic information processing” was significantly enriched in four tissues except the ovary, and it had the most enriched DEGs. Our findings offer insights to grasp the factors that need to be controlled in the design of overwintering sites and offer a novel perspective for the conservation and management of the overwintering population of female R. dybowskii.
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