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林志华，等水产学报, 2023, 47(1): 019608

traits with genomic selection methods in zhikong scal- pinarum “Banma Ge”[J]. China Fisheries, 2015(9): 52-
lop (Chlamys farreri)[J]. Marine Biotechnology, 2018, 53 (in Chinese).
20(6): 769-779. [88] 闫喜武, 霍忠明. 菲律宾蛤仔“斑马蛤2号”[J]. 中国水
[80] Gutierrez A P, Matika O, Bean T P, et al. Genomic 产, 2022(1): 102-106.
selection for growth traits in Pacific oyster (Crassostrea Yan X W, Huo Z M. Ruditapes philippinarum “No. 2 of
gigas): potential of low-density marker panels for breed- Banma Ge ”[J]. China Fisheries, 2022(1): 102-106 (in
ing value prediction[J]. Frontiers in Genetics, 2018, 9: Chinese).
391. [89] 张跃环, 喻子牛, 秦艳平, 等. 一种通过亲本改良来提
[81] 于红, 刘欣, 李琪. 基因编辑技术在贝类中的应用进展高香港牡蛎三倍体生产性能的方法: 中国, CN108040938B
与展望[J]. 水产学报, 2022, 46(4): 636-643. [P]. 2020-04-03.
Yu H, Liu X, Li Q. Application advances and prospects Zhang Y H, Yu Z N, Qin Y P, et al. A method for
of genome editing in molluscs[J]. Journal of Fisheries of improving triploid production performance of Hong
China, 2022, 46(4): 636-643 (in Chinese). Kong oyster by parent improvement: China, CN1080
[82] Perry K J, Henry J Q. CRISPR/Cas9-mediated genome 40938B[P]. 2020-04-03.
modification in the mollusc, Crepidula fornicata[J]. [90] 张跃环, 喻子牛, 秦艳平, 等. 一种香港牡蛎四倍体幼
Genesis, 2015, 53(2): 237-244. 贝的制备方法: 中国, CN107494358B[P]. 2019-11-01.
[83] Crawford K, Quiroz J F D, Koenig K M, et al. Highly Zhang Y H, Yu Z N, Qin Y P, et al. A preparation
efficient knockout of a squid pigmentation gene[J]. Cur- method for juveniles of tetraploid Hong Kong oyster:
rent Biology, 2020, 30(17): 3484-3490.e4. China, CN107494358B[P]. 2019-11-01.
[84] Huang J F, You W W, Xu Z W, et al. An effective [91] Wu X W, Zhang Y H, Xiao S, et al. Comparative stud-
microinjection method and TALEN-mediated genome ies of the growth, survival, and reproduction of diploid
editing in Pacific abalone[J]. Marine Biotechnology, and triploid Kumamoto oyster, Crassostrea sikamea[J].
2019, 21(4): 441-447. Journal of the World Aquaculture Society, 2019, 50(4):
[85] Yu H, Li H J, Li Q, et al. Targeted gene disruption in 866-877.
Pacific oyster based on CRISPR/Cas9 ribonucleoprotein [92] Qin Y P, Zhang Y H, Ma H T, et al. Comparison of the
complexes[J]. Marine Biotechnology, 2019, 21(3): 301- biochemical composition and nutritional quality between
309. diploid and triploid Hong Kong oysters, Crassostrea
[86] Li H J, Yu H, Du S J, et al. RISPR/Cas9 mediated high hongkongensis[J]. Frontiers in Physiology, 2018, 9:
efficiency knockout of myosin essential light chain gene 1674.
in the Pacific oyster (Crassostrea gigas)[J]. Marine Bio- [93] Qin Y P, Li X Y, Liao Q L, et al. Comparative study on
technology, 2021, 23(2): 215-224. the growth, survival, gonad development and trait
[87] 闫喜武, 霍忠明, 杨凤, 等. 菲律宾蛤仔“斑马蛤”[J]. 中 segregation of F 2 hybrids and their grandparent species
国水产, 2015(9): 52-53. (Crassostrea ariakensis and C. hongkongensis)[J].
Yan X W, Huo Z M, Yang F, et al. Ruditapes philip- Aquaculture, 2021, 541: 736757.

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