+高级检索
首页 > 过刊浏览>2017年第24卷第3期 >606-614
PDF HTML阅读 XML下载 导出引用 引用提醒
中国罗非鱼主养区无乳链球菌的分子流行特征及其传播方式
作者:
作者单位:

1. 中国水产科学研究院 珠江水产研究所, 农业部热带亚热带水产资源利用与养殖重点实验室, 农业部渔用药物创制重点实验室, 广东 广州 510380;
2. 上海海洋大学 水产与生命学院, 上海 201306

作者简介:

张德锋(1985-),男,助理研究员,主要从事水产病害与免疫相关研究.E-mail:zhangdefeng08@126.com

中图分类号:

Q941

基金项目:

现代农业产业技术体系专项资金项目(CARS-49);广东省鱼病防治专项(2016);广州市科技计划项目产学研协同创新重大专项(201508020046)


Molecular characteristics and transmission of Streptococcus agalactiae in a major tilapia culturing area of China
Author:
  • ZHANG Defeng 1

    ZHANG Defeng

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China

    在期刊界中查找
    在百度中查找
    在本站中查找
  • YUAN Wei 1,2

    YUAN Wei

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China
    ;College of Fisheries and Life Sciences, Shanghai Ocean University, Shanghai 201306, China
    在期刊界中查找
    在百度中查找
    在本站中查找
  • KE Xiaoli 1

    KE Xiaoli

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China

    在期刊界中查找
    在百度中查找
    在本站中查找
  • LIU Zhigang 1

    LIU Zhigang

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China

    在期刊界中查找
    在百度中查找
    在本站中查找
  • CAO Jianmeng 1

    CAO Jianmeng

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China

    在期刊界中查找
    在百度中查找
    在本站中查找
  • LU Maixin 1

    LU Maixin

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China

    在期刊界中查找
    在百度中查找
    在本站中查找
  • WANG Miao 1

    WANG Miao

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China

    在期刊界中查找
    在百度中查找
    在本站中查找
  • YI Mengmeng 1

    YI Mengmeng

    Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture Key Laboratory of Fishery Drug Development, Ministry of Agriculture Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China

    在期刊界中查找
    在百度中查找
    在本站中查找
Affiliation:

1. Key Laboratory of Tropical and Subtropical Fishery Resource Application and Cultivation, Ministry of Agriculture; Key Laboratory of Fishery Drug Development, Ministry of Agriculture; Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510380, China;
2. College of Fisheries and Life Sciences, Shanghai Ocean University, Shanghai 201306, China

  • 摘要
    • | |
  • 访问统计
    • |
  • 参考文献 [43]
    • |
  • 相似文献 [20]
    • |
  • 引证文献
    • | |
  • 文章评论
    摘要:

    为分析2007-2015年中国罗非鱼主养区无乳链球菌()的分子特征和流行情况,分离并收集了248株罗非鱼源无乳链球菌。通过分子血清型、MLST、毒力基因和前噬菌体等分型方法对248株无乳链球菌进行了分子遗传特征分析。结果表明,229株无乳链球菌(92.3%)的分子血清型是Ⅰa型,其余19株均是Ⅰb型(7.7%)。MLST分析结果表明,所有Ⅰa型无乳链球菌都是ST7型,所有Ⅰb型无乳链球菌都是ST261型。毒力基因检测结果发现,229株Ⅰa-ST7型无乳链球菌的毒力基因型相同,即V1型;19株Ⅰb-ST261型无乳链球菌的毒力基因型相同,即V2型。前噬菌体检测结果表明,Ⅰa-ST7型无乳链球菌可分为两种前噬菌体基因型,分别是P1型(36株)和P2型(193株);Ⅰb-ST261型无乳链球菌的10个前噬菌体基因都是阴性,即P3型。根据以上4种分子分型方法可将248株无乳链球菌分为3种基因型,即Ⅰa-ST7-V1-P1型、Ⅰa-ST7-V1-P2型和Ⅰb-ST261-V2-P3型。2010—2011年主要流行菌株由Ⅰa-ST7-V1-P1型转变为Ⅰa-ST7-V1-P2型,其中Ⅰa-ST7-V1-P1型是2011年之前的主要流行菌株,Ⅰa-ST7-V1-P2型在2011年及之后成为主要流行菌株。研究表明,近年来我国罗非鱼源无乳链球菌发生了明显的遗传变异,同时,根据我国罗非鱼主养区无乳链球菌的流行特点,推测我国罗非鱼源无乳链球菌是通过苗种或水体等介质进行传播的,属于输入性传播方式。

    Abstract:

    Streptococcosis in cultured tilapia ( has increased during the past decade in China. In this study, a total of 248 strains were isolated from diseased tilapia, collected in the major tilapia-culturing area of China, during 2007-2015. The aim of the study was to analyze the characteristics of the 248 tilapia strains. In molecular characterization assays, four genotypic categories comprised of molecular serotype, multilocus sequence typing (MLST), virulence genes profiling patterns and prophage genotype, were used to analyze the genotypic diversity of these S. agalactiae strains were of molecular serotype Ia, and the remaining 19 were of type Ib. MLST revealed that all the serotype Ia strains were ST7, and all the serotype Ib strains were ST261. The results of virulence genes detection indicated that the 229 Ia-ST7 strains have the same genotype of virulence genes (V1), which carried 9 virulence genes (9/11: 81.8%), except that virulence genes were negative for them. The 19 Ib-ST261 strains have the same genotype of virulence genes (V2), which possessed 6 virulence genes (6/11: 54.5%) detected by PCR. Prophage detection suggested that the 229 Ia-ST7 strains could be divided into two genotypes: type P1 (36 strains) and P2 (193 strains). All the Ib-ST261 strains were negative for 10 prophage genes, and they belonged to type P3. According to the four molecular typing methods, all 248 strains could be divided into three genotypes: namely, Ia-ST7-V1-P1, Ia-ST7-V1-P2, and Ib-ST261-V2-P3. Notably, the predominant strains of in China had shifted from type Ia-ST7-V1-P1 to type Ia-ST7-V1-P2 during 2010-2011. In addition, the type Ia-ST7-V1-P1 strain was predominant before 2011, and the type Ia-ST7-V1-P2 strain predominated thereafter. In conclusion, the strains collected from tilapia in China showed low genetic diversity. Through analyses of the characteristics of the strains isolated from deceased tilapia in the major tilapia-culturing area of China, we can deduce that the transmission of relies on the import of either new tilapia stock or culture water.

    参考文献
    [1] Fishery Administration Bureau, Ministry of Agriculture. China Fishery Statistical Yearbook[M]. Beijing: China Agricultural Press, 2015. [农业部渔业渔政管理局. 中国渔业统计年鉴[M]. 北京: 中国农业出版社, 2015.]
    [2] Li L P, Wang R, Liang W W, et al. Biological characteristics and immunization of live attenuated Streptococcus agalactiae strain for tilapia with parent[J]. Southeast China Journal of Agricultural Sciences, 2015, 28(5): 2316-2322. [李莉萍, 王瑞, 梁万文, 等. 罗非鱼无乳链球菌弱毒株与其母源株部分生物学特性及免疫原性比较研究[J]. 西南农业学报. 2015, 28(5): 2316-2322.]
    [3] Zamri-Saad M, Amal M N A, Siti-Zahrah A, et al. Control and prevention of streptococcosis in cultured tilapia in Malaysia: a review[J]. Pertanika J Trop Agric Sci. 2014, 37(4): 389-410.
    [4] Huang M Z, Li J, Pan Z C, et al. Isolation identification and drua susceptibility analysis of Streptococcus agalactiae in scortum barcoo[J]. Chinese Animal Husbandry and Veterinary Medicine, 2014, 41(10): 247-251. [黄木珍, 黎炯, 潘忠超, 等. 宝石鲈无乳链球菌的分离鉴定及耐药性分析[J]. 中国畜牧兽医. 2014, 41(10): 247-251.]
    [5] Zhang D F, Li A H, Guo Y J, et al. Molecular characterization of Streptococcus agalactiae in diseased farmed tilapia in China[J]. Aquaculture. 2013, 412-413: 64-69.
    [6] Evans J J, Bohnsack J F, Klesius P H, et al. Phylogenetic relationships among Streptococcus agalactiae isolated from piscine, dolphin, bovine and human sources: a dolphin and piscine lineage associated with a fish epidemic in Kuwait is also associated with human neonatal infections in Japan[J]. J Med Microbiol, 2008, 57: 1369-1376.
    [7] Kayansamruaj P, Pirarat N, Kondo H, et al. Genomic comparison between pathogenic Streptococcus agalactiae isolated from Nile tilapia in Thailand and fish-derived ST7 strains[J]. Infect Genet Evol, 2015, 36: 307-314.
    [8] Soto E, Wang R, Wiles J, et al. Characterization of isolates of Streptococcus agalactiae from diseased farmed and wild marine fish from the U.S. Gulf Coast, Latin America, and Thailand[J]. J Aquat Anim Health, 2015, 27(2): 123-134.
    [9] Barato P, Martins E R, Melo-Cristino J, et al. Persistence of a single clone of Streptococcus agalactiae causing disease in tilapia (Oreochromis sp.) cultured in Colombia over 8 years[J]. J Fish Dis, 2015, 38(12): 1083-1087.
    [10] Delannoy C M, Crumlish M, Fontaine M C, et al. Human Streptococcus agalactiae strains in aquatic mammals and fish[J]. BMC Microbiol, 2013, 13: 41.
    [11] Lusiastuti A M, Textor M, Seeger H, et al. The occurrence of Streptococcus agalactiae sequence type 261 from fish disease outbreaks of tilapia Oreochromis niloticus in Indonesia[J]. Aquac Res, 2014, 45(7): 1260-1263.
    [12] Li L P, Wang R, Huang T, et al. PCR detection and PFGE genotype ananlyses of Streptococcus clincal isolates from tilapia in Guangxi[J]. Journal of Fisheries of China, 2013, 37(6): 927-935. [李莉萍, 王瑞, 黄婷, 等. 广西罗非鱼链球菌病流行菌株PCR 鉴定和PFGE 基因型分析[J]. 水产学报, 2013, 37(6): 927-935.]
    [13] Li L P, Wang R, Huang T, et al. Serotype of Streptococcus agalactiae isolated from Nile tilapia Oreochromis niloticus in china from 2007 to 2012[J]. Journal of Dailian Ocean University, 2014, 9(5): 469-475. [李莉萍, 王瑞, 黄婷, 等. 2007-2012 年中国罗非鱼无乳链球菌流行菌株血清型分析[J]. 大连海洋大学学报, 2014, 9(5): 469-475.]
    [14] Li L P, Wang R, Liang W W, et al. Rare serotype occurrence and PFGE genotypic diversity of Streptococcus agalactiae isolated from tilapia in China[J]. Vet Microbiol, 2013, 167(3-4): 719-724.
    [15] Fang W, Liang Y H, Ning D, et al. Molecular epidemiology of Streptococcus agalactiae in tilapiain Guangdong[J]. Acta Scientiarum Naturalium Universitys Sunyatseni, 2016, 55(2): 97-101. [方伟, 梁宇恒, 宁丹, 等. 广东地区感染养殖罗非鱼的无乳链球菌分子分型研究[J]. 中山大学学报: 自然科学版, 2016, 55(2): 97-101.]
    [16] Guo Y J, Zhang D F, Fan H P, et al. Molecular epidemiology of Streptococcus agalactiae isolatedfrom tilapia in Southern China[J]. Journal of Fisheries of China, 2012, 36(3): 399-406. [郭玉娟, 张德锋, 樊海平, 等. 中国南方地区罗非鱼无乳链球菌的分子流行病学研究[J]. 水产学报, 2012, 36(3): 399-406.]
    [17] Kong F, Martin D, James G, et al. Towards a genotyping system for Streptococcus agalactiae (group B streptococcus): use of mobile genetic elements in Australasian invasive isolates[J]. J Med Microbiol, 2003, 52(Pt 4): 337-344.
    [18] Lu M X, Li J, Ye X, et al. Identification and characterizations of Streptococcus agalactiae isolated from tilapia cultured in Guangdong and Hianan provinces[J]. Microbiology China, 2010, 37(5): 766-774. [卢迈新, 黎炯, 叶星, 等. 广东与海南养殖罗非鱼无乳链球菌的分离、鉴定与特性分析[J]. 微生物学通报, 2010, 37(5): 766-774.]
    [19] Jones N, Bohnsack J F, Takahashi S, et al. Multilocus sequence typing system for group B streptococcus[J]. J Clin Microbiol, 2003, 41(6): 2530-2536.
    [20] Imperi M, Pataracchia M, Alfarone G, et al. A multiplex PCR assay for the direct identification of the capsular type (Ia to IX) of Streptococcus agalactiae[J]. J Microbiol Meth, 2010, 80(2): 212-214.
    [21] Poyart C, Tazi A, Reglier-Poupet H, et al. Multiplex PCR assay for rapid and accurate capsular typing of group B streptococci[J]. J Clin Microbiol, 2007, 45(6): 1985-1988.
    [22] Kayansamruaj P, Pirarat N, Katagiri T, et al. Molecular characterization and virulence gene profiling of pathogenic Streptococcus agalactiae populations from tilapia (Oreochromis sp.) farms in Thailand[J]. J Vet Diagn Invest, 2014, 26(4): 488-495.
    [23] Godoy D T, Carvalho-Castro G A, Leal C A G, et al. Genetic diversity and new genotyping scheme for fish pathogenic Streptococcus agalactiae[J]. Lett Appl Microbiol. 2013, 57(6): 476-483.
    [24] Liu G J, Zhang W, Lu C P. Comparative genomics analysis of Streptococcus agalactiae reveals that isolates from cultured tilapia in China are closely related to the human strain A909[J]. BMC Genom, 2013, 14: 775.
    [25] Dangwetngam M, Suanyuk N, Kong F, et al. Serotype distribution and antimicrobial susceptibilities of Streptococcus agalactiae isolated from infected cultured tilapia (Oreochromis niloticus) in Thailand: Nine-year perspective[J]. J Microbiol Meth, 2016, 65: 247-254.
    [26] Delannoy C M J. Host adaptation of aquatic Streptococcus agalactiae[D]. Scotland: University of Stirling, 2013.
    [27] Areechon N, Kannika K, Hirono I, et al. Draft Genome sequences of Streptococcus agalactiae serotype Ⅰa and Ⅲ isolates from tilapia farms in Thailand[J]. Genom Announc, 2016, 4(2): e00122-16.
    [28] Delannoy C M J, Zadoks R N, Crumlish M, et al. Genomic comparison of virulent and non-virulent Streptococcus agalactiae in fish[J]. J Fish Dis, 2016, 39(1): 13-29.
    [29] de Pádua Pereira U, dos Santos A R, Hassan S S, et al. Complete genome sequence of Streptococcus agalactiae strain SA20-06, a fish pathogen associated to meningoencephalitis outbreaks[J]. Stand Genom Sci, 2013, 8(2): 188-197.
    [30] Suanyuk N, Kong F, Ko D, et al. Occurrence of rare genotypes of Streptococcus agalactiae in cultured red tilapia Oreochromis sp. and Nile tilapia O. niloticus in Thailand—Relationship to human isolates?[J]. Aquaculture, 2008, 284: 35-40.
    [31] Li Q Y, Ke X L, Lu M X, et al. Prokaryotic expression and immunogenicity analysis of C5a peptidase (ScpB) of Streptococcus agalactiae isolated from tilapia[J]. Journal of Fishery Sciences of China, 2014, 21(1): 169-179. [李庆勇, 可小丽, 卢迈新, 等. 罗非鱼无乳链球菌C5a 肽酶(ScpB)的原核表达及其免疫原性[J]. 中国水产科学, 2014, 21(1): 169-179.]
    [32] Sun J, Fang W, Ke B, et al. Inapparent Streptococcus agalactiae infection in adult/commercial tilapia[J]. Sci Rep, 2016, 6: 26319.
    [33] Sadeh M, Firouzi R, Derakhshandeh A, et al. Molecular characterization of Streptococcus agalactiae isolates from pregnant and non-pregnant women at Yazd University hospital, Iran[J]. Jundishapur J Microb, 2016, 9(2): e30412.
    [34] Wang P, Tong J J, Ma X H, et al. Serotypes, antibiotic susceptibilities, and multi-locus sequence type profiles of Streptococcus agalactiae isolates circulating in Beijing, China[J]. PLoS ONE, 2015, 10(3): e0120035.
    [35] Wang Y H, Lu C C, Chiu C H, et al. Genetically diverse serotypes Ⅲ and Ⅵ substitute major clonal disseminated serotypes Ⅰb and Ⅴ as prevalent serotypes of Streptococcus agalactiae from 2007 to 2012[J]. J Microbiol Immunol, 2015, 49(5): 672-678.
    [36] Dutra V G, Alves V M, Olendzki A N, et al. Streptococcus agalactiae in Brazil: serotype distribution, virulence determinants and antimicrobial susceptibility[J]. BMC Infect Dis, 2014, 14: 323.
    [37] Beigverdi R, Jabalameli F, Mirsalehian A, et al. Virulence factors, antimicrobial susceptibility and molecular characterization of Streptococcus agalactiae isolated from pregnant women[J]. Acta Microbiol Immunol Hung, 2014, 61(4): 425-434.
    [38] Zhang D F, Liu L H, Ren Y, et al. Isolation, identification, and molecular characteristics of a new genotype of Streptococcus agalactiae from cultured tilapia in China[J]. Journal of Fisheries of China, 2015, 22(5): 1044-1054. [张德锋, 刘礼辉, 任燕, 等. 我国罗非鱼源新型无乳链球菌的分离、鉴定及其分子特征[J]. 中国水产科学, 2015, 22(5): 1044-1054.]
    [39] Rosinski-Chupin I, Sauvage E, Mairey B, et al. Reductive evolution in Streptococcus agalactiae and the emergence of a host adapted lineage[J]. BMC Genom, 2013, 14: 252.
    [40] Salloum M, van der Mee-Marquet N, Valentin-Domelier A S, et al. Diversity of prophage DNA regions of Streptococcus agalactiae clonal lineages from adults and neonates with invasive infectious disease[J]. PLoS ONE, 2011, 6(5): e20256.
    [41] Amal M N, Zamri-Saad M, Siti-Zahrah A, et al. Transmission of Streptococcus agalactiae from a hatchery into a newly established red hybrid tilapia, Oreochromis niloticus (L.) x Oreochromis mossambicus (Peters), farm[J]. J Fish Dis, 2013, 36(8): 735-739.
    [42] Pradeep P J, Suebsing R, Sirthammajak S, et al. Evidence of vertical transmission and tissue tropism of Streptococcosis from naturally infected red tilapia (Oreochromis spp.)[J]. Aquac Rep, 2016, 3: 58-66.
    [43] Iregui C A, Comas J, Vasquez G M, et al. Experimental early pathogenesis of Streptococcus agalactiae infection in red tilapia Oreochromis spp.[J]. J Fish Dis, 2016, 39(2): 205-215.
引用本文

张德锋,袁伟,可小丽,刘志刚,曹建萌,卢迈新,王淼,衣萌萌.中国罗非鱼主养区无乳链球菌的分子流行特征及其传播方式[J].中国水产科学,2017,24(3):606-614
ZHANG Defeng, YUAN Wei, KE Xiaoli, LIU Zhigang, CAO Jianmeng, LU Maixin, WANG Miao, YI Mengmeng. Molecular characteristics and transmission of Streptococcus agalactiae in a major tilapia culturing area of China[J]. Journal of Fishery Sciences of China,2017,24(3):606-614

复制
分享
文章指标
  • 点击次数:1408
  • 下载次数: 775
  • HTML阅读次数: 0
  • 引用次数: 0
历史
  • 在线发布日期: 2017-05-17
文章二维码
您是第 位访问者
主管单位:中华人民共和国农业农村部
主办单位:中国水产科学研究院  中国水产学会  科学出版社
地址:北京市永定路南青塔村150号
传真:010-68673931 电话:010-68673921,010-68673931
中国水产科学 ® 2025 版权所有