论文合集:
1.Li, Y.G., Xu, C.X. and Q. Li (2022): Physiological and gene expression responses of diploid and triploid Pacific oyster (Crassostrea gigas) to heat acclimation. Aquaculture Research, 53:6641-6650.
2..Zhang, Y.F., Chen, Y.L., Xu, C.X. and Q. Li (2023): Comparative analysis of genetic diversity and structure among four shell color strains of the Pacific oyster Crassostrea gigas based on the mitochondrial COI gene and microsatellites. Aquaculture, 563:738990.
3.Min, Y., Li, Q. and H. Yu (2023) Characterization of larval shell formation and CgPOU2F1, CgSox5, and CgPax6 gene expression during shell morphogenesis in Crassostrea gigas. Comparative Biochemistry and Physiology Part B, 263:110783.
4. Meng, L.X., Xu C.X. and Q. Li (2022): Effects of temperature, salinity and stocking density on larval survival and growth of reciprocal crosses between two strains of Pacific oysters, Crassostrea gigas. Journal of Ocean University of China, 22:1017-1026.
5.Hu, Y.M., Li, Q., Xu, C.X., Liu, S.K., Kong, L.F. and H. Yu (2022) Genetic variability of mass-selected and wild populations of Iwagaki oyster (Crassostrea nippona) revealed by microsatellites and mitochondrial COI sequences. Aquaculture, 561:738737.
6.Hu, Y.M., Li, Q., Xu, C.X., Liu, S.K., Kong, L.F. and H. Yu (2022) Response to selection for growth in successive mass selected generations of Iwagaki oyster Crassostrea nippona. Aquaculture, 560:738575.
7.Zhu, Y.J., Li, Q., Yu, H., Liu, S.K. and L.F. Kong (2022) Expression of tyrosinase-like protein genes and its functional analysis in melanin synthesis of Pacific oyster (Crassostrea gigas). Gene, 840: 146742.
8.Jiang, G.W., Zhou, J.M., Cheng, G., Meng, L.X., Chi, Y., Xu, C.X. and Q. Li (2022): Examination of survival, physiological parameters and immune responses in relation to the thermo-resistant heterosis of hybrid oysters derived from Crassostrea gigas and C. angulata. Aquaculture, 559:738454.
9.Gong, J.W., Li, Q., Yu, H., Liu, S.K. and L.F. Kong (2022): Effects of low salinity on hemolymph osmolality and transcriptome of the Iwagaki oyster, Crassostrea nippona. Fish & Shellfish Immunology, 126:211-216.
10. Min, Y., Li, Q. and H. Yu (2022) Heme-peroxidsae 2 modulated by POU2F1 and SOX5 is involved in pigmentation in Pacific oyster (Crassostrea gigas). Marine Biotechnology, 24: 263-275.
11. Ni, G., Li, Q., Kong, L.F. and H. Yu (2022) The clam Cyclina sinensis (Gmelin) phylogeographytudy with 28S rRNA gene and potential of nuclear rRNA genes in genetic assesments of molluscs. Journal of Ocean Univsersity of China, 21: 395-399.
12. Wan, S., Li, Q., Yu, H., Liu, S.K. and L.F. Kong (2022): Transcriptome analysis based on dietary beta-carotene supplement reveals genes potentially involved in carotenoid metabolism in Crassostrea gigas. Gene, 818:146226.
13.Wan, S., Li, Q., Yu, H., Liu, S.K. and L.F. Kong (2022) : A nuclear receptor heterodimer, CgPPAR2-CgRXR, acts as a regulator of carotenoid metabolism in Crassostrea gigas. Gene, 827:146473.
14.14 Sun, D.F., Li, Q. and H. Yu (2022): DNA methylation differences between male and female gonads of the oyster reveal the role of epigenetics in sex determination. Gene, 820:146260.
15. Sun, D.F., Li, Q. and H. Yu (2022): Genome-wide differential DNA methylomes provide insights into the infertility of triploid oysters. Marine Biotechnology, 24:18-31.
16.Sun, D.F., Yu, H. and Li, Q. (2022): Examination of the roles of Foxl2 and Dmrt1 in sex differentiation and gonadal development of oysters by using RNA interference. Aquaculture, 548:737732.
17.Liang, Y.X. and Q. Li (2022) : Hybridization between “Haida No. 1” and Orange-shell line of the Pacific oyster reveals high heterosis in survival. Aquaculture, 551:737945.
18.Jiang, G.W., Li, Q. and C.X. Xu (2022) Growth, survival and gonad development of two new types of reciprocal triploid hybrids between Crassostrea gigas and C. angulata. Aquaculture, 559: 738451.
19. Fang, J.F., Xu, C.X. and Q. Li (2022): Transcriptome analysis of inbreeding depression in the Pacific oyster Crassostrea gigas.Aquaculture, 557:738314.
20. Chi, Y., Jiang, G.W., Liang, Yuanxin Xu a, Chengxun Qi Li (2022) Selective breeding for summer survival in Pacific oyster (Crassostrea gigas) Genetic parameters and response to selection. Aquaculture, 556: 738271.
21.21 .Chen, Y.L., Xu, C.X. and Q. Li (2022): Genetic diversity in a genetically improved line of the Pacific oyster Crassostrea gigas with orange shell based on microsatellites and mtDNA data. Aquaculture, 549:737791.
22.Li, Y.G., Jiang, K.Y. and Q. Li (2022): Comparative transcriptomic analyses reveal differences in the responses of diploid and triploid Pacific oysters (Crassostrea gigas) to thermal stress. Aquaculture, 555:738219.
23. Li, Y.G. and Q. Li (2022): The growth, survival and ploidy of diploid, triploid and tetraploid of the Pacific oyster (Crassostrea gigas) in larval and juvenile stages. Aquaculture, 555:738219.
24. Li, Y.G., Xu, C.X. and Q. Li (2022): Effects of salinity and temperature on growth and survival of diploid and tetraploid larvae of the Pacific oyster, Crassostrea gigas. Aquaculture, 550:737809.
25. Yang, H. and Q. Li (2022): The DNA methylation level is associated with the superior growth of the hybrid crosses in the Pacific oyster Crassostrea gigas. Aquaculture, 547:737421.
26.Yue, C.Y., Li, Q. and H. Yu (2022): Integrated analysis of miRNA and mRNA expression profiles identifies potential regulatory interactions during sexual development of Pacific oyster Crassostrea gigas. Aquaculture, 546:737294.
27. Li, Z.Z., Li, Q., Xu, C.X. and H. Yu (2022): Molecular characterization of Pax7 and its role in melanin synthesis in Crassostrea gigas. Comparative Biochemistry and Physiology Part B, 260:110720.
28. Li, X.C., Bai, Y,T., Dong, Z., Xu, C.X., Liu, S.K., Yu, Hong, Kong, L.F. and Li, Q.(2022): Chromosome-level genome assembly of the European flat oyster (Ostrea edulis) provides insights into its evolution and adaptation.Comparative biochemistry and physiology D-Genomics & proteomics, 45:101045.
29.Li, z.z., Li, Q., Xu, C.X. and Yu, Hong, 17. Histological, elemental, and ultrastructural analysis of melaninin mantle of Pacific oyster (Crassostrea gigas). Microscopy Research and Technique, 1-11, DOI:10.1002/jemt.24269.
30.Zheng, J., Li C.J., Zheng X.D (2022): Polystyrene microplastic ingestion induces the damage in digestive gland of Amphioctopus fangsiao at the physiological, inflammatory, metabolome and transcriptomic levels. Environmental Pollution, 315:120480.
31. Zheng, J., Li C.J., Zheng X.D(2022): Toxic effects of polystyrene microplastics on the intestine of Amphioctopus fangsiao (Mollusca: Cephalopoda): From physiological responses to underlying molecular mechanisms. Chemosphere, 308:136362.
32. Zheng, X.D., Xu, C.X., Li, J.H. (2022): Morphological description and mitochondrial DNA-based phylogenetic placement of a new species of Callistoctopus Taki, 1964 (Cephalopoda, Octopodidae) from the southeast waters of China. ZooKeys, 1121:1-15.
33.Nan, Z., Xu R., Hou, C.Q., Zheng X.D. (2022):Genetic differentiation among populations of Octopus minor based on simple sequence repeats mined from transcriptome data, Journal of Ocean University of China, 21:1265-1272.
34.Xu, R., Lue, Y.H., Tang, Y., Chen, Z.W., Xu, C.X., Zhang, X.Y., Zheng, X.D.(2022): DNA Barcoding Reveals High Hidden Species Diversity of Chinese Waters in the Cephalopoda. Frontiers in marine science, 9:830381.
35.Ren, J., Zheng, X.D(2022): Aggregata sinensis n. sp. (Apicomplexa: Aggregatidae), a new coccidian parasite from Amphioctopus fangsiao and Octopus minor (Mollusca: Octopodidae) in the Western Pacific Ocean.Parasitology research, 121(1):373-381.
36.Li, H.K., Yu, R.H., Ma, P.Z., Li, C.H. (2022): Complete mitochondrial genome of Cultellus attenuatus and its phylogenetic implication. Molecular Biology Reports, 49:8163-816878.
37.Li, H.K., Yu, R.H., Li, Q. and Ma, P.Z (2022): Evaluation of advantages in the growth, survival and reproductive aspects of triploid hybrids derived from Crassostrea gigas tetraploids and C.ariakensis diploids in northern China, Aquaculture, 548 :737675.
38.Li, X., Yang, B., Shi, C.Y., Wang, H.B., Yu, R.H., Li, Q. and Liu, S.K. (2022): Synergistic interaction of hyposalinity stress with Vibrio infection causes mass mortalities in oysters by inducing host microflora imbalance and immune dysregulation. Frontiers in immunology, 13:859975.
39.Fu, H.R., Tian, J., Shi, C.Y., Li, Q. and Liu, S.K. (2022): Ecological significance of G protein-coupled receptors in the Pacific oyster (Crassostrea gigas): pervasive gene duplication and distinct transcriptional response to marine environmental stresses. Marine Pollution Bulletin, 185:114269.
40.Tan, C., Shi, C.Y., Li, Y., Teng, W., Li, Y.J., Fu, H.R., Ren, L.T., Yu, H., Li, Q. and Liu, S.K. (2022): Comparative methylome analysis reveals epigenetic signatures associated with growth and shell color in the Pacific oyster, Crassostrea gigas. Marine Biotechnology, 24: 911-926.
41.He, Y.M., Li, X., Shi, C.Y., Li, Y., Li, Q. and Liu, S.K. (2022): Transcriptome profiling of the Pacific oyster (Crassostrea gigas) suggests distinct host immune strategy in response to Vibrio alginolyticus infection, Aquaculture, 560:738563.
42.Wang, K.Q., Yang, B., Li, Q. and Liu, S.K. (2022): Systematic Evaluation of Genomic Prediction Algorithms for Genomic Prediction and Breeding of Aquatic Animals. Genes, 13(12):2247.
43.Xu, T., Qi, L., Kong, L.F. and Li, Q. (2022): Mitogenomics reveals phylogenetic relationships of Patellogastropoda (Mollusca,Gastropoda) and dynamic gene rearrangements, Zoologica Scripta, 51(2):147-160.
44.Xu, T., Kong, L.F. and Li, Q. (2022):Testing Efficacy of Assembly-Free and Alignment-Free Methods for Species Identification Using Genome Skims, with Patellogastropoda as a Test Case. Genes, 13(7):1192.
45.Qi, L., Xu, B.Y., Kong, L.F. and Li, Q. (2022): Improved phylogenetic resolution within Neritidae (Gastropoda, Nertimorpha) with implications for the evolution of shell traits and habitat. Zoologica Scripta , 10.1111/zsc.12567.
46.Xu, B.Y., Qi, L., Kong, L.F. and Li, Q.(2022):Description of Alvania wangi Xu, Qi & Kong, sp. nov. (Mollusca, Gastropoda, Littorinimorpha, Rissoidae) from the East China Sea. ZooKeys, 1110:201-217.
47.Zhang, N.,Li, Y.N., Ken, H., Kong, L.F. and Li, Q.(2022):A comparative analysis of mitochondrial ORFs provides new insights on expansion of mitochondrial genome size in Arcidae . BMC Genomics, 23(1): 809.
48.Wang, H.H., Yu, H., Li, Q. and Liu, S.K. (2022): Transcription Analysis for Core Networks of lncRNAs-mRNAs:Implication for Potential Role in Sterility of Crassostrea gigas, Biology, 11(3):378.
49.Yang, Q., Yu, H. and Li, Q. (2022): Refinement of a classification system for gonad development in the triploid oyster Crassostrea gigas. Aquaculture, 549:737814.
50.Chen, C., Yu, H. and Li, Q. (2022): Investigation of the role of endogenous miRNAs in determining sterility in triploid Pacific oysters (Crassostrea gigas). Aquaculture, 561: 738606.
51.Yang, Q., Yu, H. and Li, Q. (2022): Disruption of cell division prevents gametogenesis in triploid Pacific oysters (Crassostrea gigas). Aquaculture, 560: 738477.
52.Somrup, S., Sangsawang, A., McMillan, N., Winitchai, S., Inthoncharoen, J., Liu, S. and Muangmai, N. (2022): Pinctada phuketensis sp. nov. (Bivalvia, Ostreida, Margaritidae), a new pearl oyster species from Phuket, western coast of Thailand. ZooKeys, 1119:181-195.
53.Li, F., Fan, M., Wang, S., Gu, Z., Wang, A., Liu, C., Yang, Y. and Liu, S. (2022): The complete mitochondrial genome of Hyotissa hyotis (Bivalvia: Gryphaeidae) reveals a unique gene order within Ostreoidea. Fishes, 7(6): 317.
54.王朔,于红,李琪.(2022):不同育性长牡蛎性腺发育过程中糖原和脂质的组织化学.水产学报,46(12): 1-9.
55.王永旺,于瑞海,刘洋,李海昆,李春华 (2022):不同盐度、密度及单胞藻对小刀蛏幼虫、存活的影响,中国海洋大学学报, 52 (sup.I): 20-27.
56.王永旺,于瑞海,李春华,李海昆,刘洋(2022):环境因子对小刀蛏稚贝生长和存活的影响,海洋科学, 46(10): 43-50.
57.吕敏,李琪,2022:山东田横岛海域长牡蛎性腺发育及生化成分周年变化.中国海洋大学学报,52:33-40.
58.刘海娟,陈瑞芳,曾梦清,李琪,2022:织锦巴非蛤人工养殖技术研究.科学养鱼, 11:61-63.
59.周建民,姜高伟,徐成勋,李永国,李琪,2022细胞松弛素B和低盐诱导长牡蛎“海大3号”四倍体的效果比较.水生生物学报:1-8.
60.于红,郭浪,李琪, 2022:贝类性别决定与分化相关基因研究进展.水产学报:1-13.
61.梁园鑫,徐成勋,刘士凯,孔令锋,李琪,2022:长牡蛎“海大1号”与壳橙品系杂交子代的杂种优势及配合力分析.水产学报:1-9.
62.陈雨露,徐成勋,刘士凯,孔令锋,李琪,2022:长牡蛎壳橙性状遗传参数评估及与生长性状的关联性.水产学报:1-9.
专利:
1. 于瑞海,李海昆,邹多,李琦,于红,徐成勋,一种适宜牡蛎海底养殖方法及装置,发明专利,专利号ZL2021102472914.
2. 于瑞海,高成乾,刘士凯,孔令锋,一种运输牡蛎附着基的简易装置,实用新型专利,专利号:ZL2022206845020.
3. 邹多,于瑞海,高成乾,李成林,刘士凯,一种牡蛎附着基扇贝壳快速清洗装置,实用新型专利,专利号:ZL2022206848796.
4. 刘士凯,支承钧,陈晨光,张子豪,于瑞海,徐成勋, 一种牡蛎养殖的浮架, 实用新型专利,专利号:ZL202221057424.8 .
5. 刘士凯,支承钧,鲁林基,李寅,李琪,李鹏飞,李忠玉,一种牡蛎养殖装置,实用新型专利,专利号:ZL202221059236.9.