[1] 李乐,于晓清,李翘楚,等.我国鲑鳟鱼类养殖常见流行疫病研究概况[J].生物技术进展,2021,11(4):462-470. [2] Food and Agriculture Organization of the United Nations. The state of world fisheries and aquaculture 2022. Towards blue transformation[R]. Rome: FAO, 2022:105. [3] 农业农村部渔业渔政管理局,全国水产技术推广总站,中国水产学会.2023中国渔业统计年鉴[M].北京:中国农业出版社,2023. [4] 农业农村部渔业渔政管理局,全国水产技术推广总站.2022我国水生动物重要疫病状况分析[M].北京:中国农业出版社,2022. [5] RODRIGUEZ SAINT-JEAN S, BORREGO J J, PEREZ-PRIETO S I. Comparative evaluation of five serological methods and RT-PCR assay for the detection of IPNV in fish[J]. Journal of Virological Methods,2001,97(1/2):23-31. [6] 张文,徐立蒲,吕晓楠,等.传染性胰脏坏死病毒实时荧光定量RT-PCR检测方法的建立及应用[J].中国动物检疫,2023,40(4):106-113. [7] 郑琳,王小博.快速检测技术在水产品检测中的应用现状及发展前景[J].食品工业科技,2018,39(10):342-346. [8] NING B, HUANG Z, YOUNGQUIST B M, et al. Liposome-mediated detection of SARS-CoV-2 RNA-positive extracellular vesicles in plasma[J]. Nature Nanotechnology,2021,16(9):1039-1044. [9] 杨旭琼,杨金易,王弘.病毒性动物疫病诊断技术研究进展[J].中国畜牧兽医,2022,49(1):294-306. [10] PURCELL M K, THOMPSON R L, GARVER K A, et al. Universal reverse-transcriptase real-time PCR for infectious hematopoietic necrosis virus (IHNV)[J]. Diseases of Aquatic Organisms,2013,106(2):103-115. [11] HOFERER M, BRAUN A, SKRYPSKI J, et al. One-step cross-genogroup multiplex RT-qPCR with an internal control system for the detection of infectious pancreatic necrosis virus (IPNV)[J]. Journal of Virological Methods,2017,247:68-76. [12] YONG C Y, ONG H K, TANG H C, et al. Infectious hematopoietic necrosis virus:advances in diagnosis and vaccine development[J]. PeerJ,2019,7:e7151. [13] HOFERER M, AKIMKIN V, SKRYPSKI J, et al. Improvement of a diagnostic procedure in surveillance of the listed fish diseases IHN and VHS[J]. Journal of Fish Diseases,2019,42(4):559-572. [14] NOTOMI T, OKAYAMA H, MASUBUCHI H, et al. Loop-mediated isothermal amplification of DNA[J]. Nucleic Acids Research,2000,28(12):E63. [15] PIEPENBURG O, WILLIAMS C H, STEMPLE D L, et al. DNA detection using recombination proteins[J]. PLoS Biology,2006,4(7):e204. [16] FIRE A, XU S Q. Rolling replication of short DNA circles[J]. Proceedings of the National Academy of Sciences of the United States of America, 1995,92(10):4641-4645. [17] COMPTON J. Nucleic acid sequence-based amplification[J]. Nature,1991,350(6313):91-92. [18] WALKER G T, LITTLE M C, NADEAU J G, et al. Isothermal in vitro amplification of DNA by a restriction enzyme/DNA polymerase system[J]. Proceedings of the National Academy of Sciences of the United States of America,1992,89(1):392-396. [19] VINCENT M, XU Y, KONG H M. Helicase-dependent isothermal DNA amplification[J]. EMBO Reports,2004,5(8):795-800. [20] 赵飞,邹为民. LAMP法在水产动物病原快速检测中的应用[J].南方水产,2007,3(2):71-75. [21] YANG S X, WANG K Y, YANG Z X. Comparison of reverse-transcription loop-mediated isothermal amplification and reverse-transcription polymerase chain reaction for grass carp reovirus[J]. Acta Veterinaria Brno,2015,84(3):215-223. [22] 陈进会,陈文,黄伟,等.病毒性出血性败血症病毒(VHSV)实时荧光环介导等温扩增检测方法的建立[J].中国动物检疫,2013,30(5):42-46. [23] 石素婷.水生动物疫病病原LAMP检测方法的建立[D].太谷:山西农业大学,2015. [24] SUEBSING R, JEON C H, OH M J, et al. Reverse transcriptase loop-mediated isothermal amplification assay for infectious hematopoietic necrosis virus in Oncorhynchus keta[J]. Diseases of Aquatic Organisms,2011,94(1):1-8. [25] GUNIMALADEVI I, KONO T, LAPATRA S E, et al. A loop mediated isothermal amplification (LAMP) method for detection of infectious hematopoietic necrosis virus (IHNV) in rainbow trout (Oncorhynchus mykiss)[J]. Archives of Virology,2005,150(5):899-909. [26] SOLIMAN H, MIDTLYNG P J, EL-MATBOULI M. Sensitive and rapid detection of infectious pancreatic necrosis virus by reverse transcription loop mediated isothermal amplification[J]. Journal of Virological Methods,2009,158(1/2):77-83. [27] 刘淼,徐黎明,卢彤岩,等.鱼类传染性造血器官坏死病毒RT-LAMP检测方法的建立及应用[J].中国水产科学,2014,21(5):1065-1071. [28] 韩姝伊,何亚鹏,时晓,等.传染性造血器官坏死病毒RT-LAMP检测方法的建立[J].中国动物检疫,2019,36(7):76-81. [29] 杨瑶.传染性胰脏坏死病毒RT-LAMP检测方法的建立及应用[D].哈尔滨:东北农业大学,2019. [30] KERSTING S, RAUSCH V, BIER F F, et al. Multiplex isothermal solid-phase recombinase polymerase amplification for the specific and fast DNA-based detection of three bacterial pathogens[J]. Mikrochimica Acta,2014,181(13/14):1715-1723. [31] 吴耀东,徐民俊,郑文斌,等.重组酶聚合酶扩增技术及其在动物病原快速检测中的应用[J].中国兽医学报,2016,36(10):1797-1802. [32] 梁君妮,尹伟力,刘鹏,等.检测鱼传染性造血器官坏死病毒重组酶聚合酶扩增方法的建立及初步应用[J].动物医学进展,2020,41(2):14-17. [33] YIN W L, HUANG W, LIU X J, et al. Establishment of recombinase polymerase amplification technology for detecting viral hemorrhagic septicemia virus (VHSV) in cultured aquatic animals[J]. Aquaculture,2021,535:736338. [34] 陈雨,郑晓聪,温智清,等.病毒性出血败血症病毒实时荧光RT-RPA恒温检测方法的建立[J].中国兽医科学,2020,50(4):417-422. [35] 吕晓楠,徐立蒲,张文,等.传染性造血器官坏死病毒RT-RAA快速检测方法的建立[J].检验检疫学刊,2019,29(3):22-26. [36] 朱崧琪,吴江,廖立珊,等.传染性造血器官坏死病毒重组酶介导等温扩增快速检测方法的建立和验证[J].中国兽医科学,2023,53(7):805-810. [37] 廖立珊,徐彬,陈兵,等.传染性造血器官坏死病病毒RT-RAA-LFD检测方法的建立与应用[J].中国兽医科学,2023,53(8):991-996. [38] BANÉR J, NILSSON M, MENDEL-HARTVIG M, et al. Signal amplification of padlock probes by rolling circle replication[J]. Nucleic Acids Research,1998,26(22):5073-5078. [39] MILLARD P J, BICKERSTAFF L E, LAPATRA S E, et al. Detection of infectious haematopoietic necrosis virus and infectious salmon anaemia virus by molecular padlock amplification[J]. Journal of Fish Diseases,2006,29(4):201-213. [40] DEIMAN B, VAN AARLE P, SILLEKENS P. Characteristics and applications of nucleic acid sequence-based amplification (NASBA)[J]. Molecular Biotechnology,2002,20(2):163-179. [41] STARKEY W G, SMAIL D A, BLEIE H, et al. Detection of infectious salmon anaemia virus by real-time nucleic acid sequence based amplification[J]. Diseases of Aquatic Organisms,2006,72(2):107-113. [42] ZHANG Y A, SALINAS I, LI J, et al. IgT, a primitive immunoglobulin class specialized in mucosal immunity[J]. Nature Immunology,2010,11(9):827-835. [43] 金爽,金莉莉,郭欣硕,等.间接酶联免疫法检测鲑鳟鱼类传染性造血器官坏死病病毒[J].食品安全质量检测学报,2014,5(8):2327-2331. [44] 张琳琳,连科迅,张英,等.传染性胰坏死病毒双抗体夹心ELISA检测方法的建立[J].淡水渔业,2014,44(4):57-62. [45] 徐晓丽,绳秀珍,战文斌.一种水产动物病毒现场检测免疫芯片的制备与应用[J].海洋与湖沼,2010,41(5):698-706. [46] 李永芹,绳秀珍,战文斌,等.6种鱼类病原菌的免疫反应分析及其检测免疫芯片的构建[J].中国海洋大学学报(自然科学版),2010,40(8):48-54. [47] 王欣欣,绳秀珍,战文斌.降低交叉反应的鱼类病原菌检测抗体芯片初步研究[J].海洋湖沼通报,2013(1):23-28. [48] 徐晓丽,邵蓬,丁子元,等.生物芯片技术及其在水产动物病原检测中的应用[J].河北渔业,2013(4):59-63. [49] 张显昱,刘志强,李强.胶体金免疫层析试纸条在水产养殖业中的应用[J].生物技术通报,2013(12):56-61. [50] 孙涛,高瑞刚,孙明君,等.鱼类病毒性出血性败血症病毒诊断胶体金免疫层析方法的建立[J].中国动物检疫,2017,34(12):92-97. [51] 张琳琳.传染性胰腺坏死病毒胶体金免疫层析试纸条的研制[D].哈尔滨:东北农业大学,2014. [52] 朱子煜,梁阿新,浩天瑞霖,等.生物传感器在新冠病毒检测中的应用[J].化学学报,2023,81(3):253-263. [53] ZHENG J H, FENG C Y, QIU S Y, et al. Application and prospect of semiconductor biosensors in detection of viral zoonoses[J]. Journal of Semiconductors,2023,44(2):023102. [54] MCCARTHY E L, EGELER T J, BICKERSTAFF L E, et al. Detection and identification of IHN and ISA viruses by isothermal DNA amplification in microcapillary tubes[J]. Analytical and Bioanalytical Chemistry,2006,386(7/8):1975-1984. [55] MCCARTHY E L, BICKERSTAFF L E, DA CUNHA M P, et al. Nucleic acid sensing by regenerable surface-associated isothermal rolling circle amplification[J]. Biosensors & Bioelectronics,2007,22(7):1236-1244. [56] CHAVAN S G, YAGATI A K, MOHAMMADNIAEI M, et al. Robust bioengineered apoferritin nanoprobes for ultrasensitive detection of infectious pancreatic necrosis virus[J]. Analytical Chemistry,2019,91(9):5841-5849. [57] CHAVAN S G, KIM D, HWANG J, et al. Enhanced detection of infectious pancreatic necrosis virus via lateral flow chip and fluorometric biosensors based on self-assembled protein nanoprobes[J]. ACS Sensors,2019,4(11):2937-2944. [58] HONG S R, JEONG H D, HONG S. QCM DNA biosensor for the diagnosis of a fish pathogenic virus VHSV[J]. Talanta,2010,82(3):899-903. [59] BURBANK D R, FEHRINGER T R, CHIARAMONTE L V. Comparison of selected nonlethal samples from adult steelhead for detection of infectious hematopoietic necrosis virus using cell culture[J]. Journal of Aquatic Animal Health,2017,29(2):67-73. [60] TEFFER A K, MILLER K M. A comparison of nonlethal and destructive methods for broad-based infectious agent screening of chinook salmon using high-throughput qPCR[J]. Journal of Aquatic Animal Health,2019,31(3):274-289. [61] COUTINHO C D, FORD C E, TRAFFORD J D, et al. Non-lethal detection of Ranavirus in fish[J]. Viruses,2023,15(2):471. [62] WELI S C, BERNHARDT L V, QVILLER L, et al. Development and evaluation of a method for concentration and detection of salmonid alphavirus from seawater[J]. Journal of Virological Methods,2021,287:113990. [63] BERNHARDT L V, MYRMEL M, LILLEHAUG A, et al. Filtration, concentration and detection of salmonid alphavirus in seawater during a post-smolt salmon (Salmo salar) cohabitant challenge[J]. Diseases of Aquatic Organisms,2021,144:61-73. [64] LIU X F, QIU S Y, FANG H P, et al. A brief review of novel nucleic acid test biosensors and their application prospects for salmonids viral diseases detection[J]. Journal of Semiconductors,2023,44(2):023103. [65] GOOTENBERG J S, ABUDAYYEH O O, KELLNER M J, et al. Multiplexed and portable nucleic acid detection platform with Cas13, Cas12a, and Csm6[J]. Science,2018,360(6387):439-444. [66] 胡秀文,刘华,王宇,等.CRISPR-Cas系统在核酸检测中的应用研究[J].生物技术通报,2021,37(9):266-273. [67] 张徐俞,黄俊,杨稳,等.重组酶聚合酶扩增结合CRISPR-Cas12a快速检测十足目虹彩病毒1方法的建立[J].微生物学通报,2021,48(12):4980-4988. [68] TAY A,PAVESI A, YAZDI S R, et al. Advances in microfluidics in combating infectious diseases[J]. Biotechnology Advances,2016,34(4):404-421. [69] MAFFERT P, REVERCHON S, NASSER W, et al. New nucleic acid testing devices to diagnose infectious diseases in resource-limited settings[J]. European Journal of Clinical Microbiology & Infectious Diseases:Official Publication of the European Society of Clinical Microbiology,2017,36(10):1717-1731. [70] NUNEZ-BAJO E, SILVA PINTO COLLINS A, KASIMATIS M, et al. Disposable silicon-based all-in-one micro-qPCR for rapid on-site detection of pathogens[J]. Nature Communications,2020,11:6176. [71] Food and Agriculture Organization of the United Nations. Fishery And Aquaculture Country Profiles. China, 2017. [EB/OL]. (2018-04-27)[2023-11-01]. https://www.fao.org/fishery/en/facp/chn?lang=en.
2024, Vol. 43 
