2021.07-2024.12,广东海洋大学水产学院，讲师

2025.01-至今，广东海洋大学水产学院，副教授

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长期从事牡蛎遗传育种及基础生物学研究，在牡蛎功能基因研究领域具有扎实的工作基础，当前的工作聚焦于香港牡蛎渗透调节研究，旨在揭示香港牡蛎应对盐度胁迫的分子机制，为培育耐高盐品系提供理论依据。

本科生：《贝类学》、《海水贝类增养殖学》、《水产动物育种学》等

研究生：《水产育种案例与实践》

国家自然科学基金青年基金项目（项目编号：42406093）

广东省基础与应用基础基金青年基金项目（项目编号：2022A1515110002）

湛江市科学技术局海洋青年项目（项目编号：2021E05029）

1. Yue C^*, Song X, Ibrahim S, Lü W, Deng Y, Li Q. (2024a). The role of serine hydroxymethyltransferase 1 (CHSHMT1) in the regulation of the key osmolyte glycine in the estuarine Hong Kong oysterCrassostrea hongkongensis under osmotic stress.Aquaculture Reports, 35: 101953.

2. Yue C^#,*, Ran Y^#, Yang C, Ibrahim S, Song X, Lü W, Deng Y, Li Q. (2024b). The effects of salinity stress onCrassostrea hongkongensis gill morphology, cell proliferation, and apoptosis.Aquaculture, 583: 740621.

3. Song X, Lü W, Ibrahim S, Deng Y, Li Q,Yue C^*. (2023). Identification of free amino acids (FAA) that are important as major intracellular osmolytes in the estuarine Hong Kong oyster,Crassostrea hongkongensis.Aquaculture Reports, 28: 101464.

4. Ibrahim S, Yang C,Yue C^*, Song X, Deng Y, Li Q, Lü W. (2023). Whole transcriptome analysis reveals the global molecular responses of mRNAs, lncRNAs, miRNAs, circRNAs, and their ceRNA networks to salinity stress in Hong Kong oysters,Crassostrea hongkongensis.Marine Biotechnology, 25: 624-641.

5. Yue C, Li Q^*, Yu H. (2022). Integrated analysis of miRNA and mRNA expression profiles identifies potential regulatory interactions during sexual development of Pacific oysterCrassostrea gigas.Aquaculture, 546: 737294.

6. Yue C, Li Q^*, Yu H. (2021). Variance in expression and localization of potential sex-determining actorsCgDsx,CgBHMG1 andCgFoxl2 during diploid and triploid Pacific oysterCrassostrea gigas sexual development.Gene, 790: 145692.

7. Yue C, Li Q^*, Yu H, Liu S, Kong L. (2020a). Restriction site-associated DNA sequencing (RAD-seq) analysis in Pacific oysterCrassostrea gigas based on observation of individual sex changes.Scientific Reports, 10: 9873.

8. Yue C^#, Yu H^#, Li H, Du S, Li Q^*. (2020b). The endogenous EF-1α promoter is highly active in driving gene overexpression in developing embryos of the Pacific oysterCrassostrea gigas.Aquaculture, 522: 735134.

9. Yue C, Li Q^*, Yu H. (2018). Gonad transcriptome analysis of the Pacific oysterCrassostrea gigas identifies potential genes regulating the sex determination and differentiation process.Marine Biotechnology, 20: 206-219.

10. Yue C^*, Zhang K, Liu Z^*, Lü W, Guo H, Zhao L, Song X, Fang JK. (2024c). The role of TLR4-MyD88 signaling pathway in immune response of the selected scallop strain “Hongmo No.1” to heat stress.Animals, 14: 497.

11. Peng H, Liao Y, Yang C, Mkuye R, Deng Y,Yue C^*. (2024d). Identification of shell color-associated genes using mantle branch-specific RNA sequencing of yellow-colored line of pearl oysterPinctada fucata martensii.Journal of Ocean University of China, 23(4): 1-11.

12. Zhong M, Liu X, Xu R, Liu X, Jiang Q, Song X, Lu Y, Luo X,Yue C, Qin S, Lü W^*. (2023). Effects of light quality and intensity on the juvenile physiological metabolism ofBabylonia areolata. Aquaculture Reports, 33, 101758.

13. Yu H^#, Li H^#, Li Q^*, Xu R,Yue C, Du S. (2019). Targeted gene disruption in Pacific oyster based on CRISPR/Cas9 ribonucleoprotein complexes.Marine Biotechnology, 21: 301-309.

14. Zhao X, Li Q^*, Meng Q,Yue C, Xu C. (2017). Identification and expression of cysteine sulfinate decarboxylase, possible regulation of taurine biosynthesis inCrassostrea gigas in response to low salinity.Scientific Reports, 7: 5505.