大黄鱼内脏白点病病原杀香鱼假单胞菌及其毒力因子研究进展
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摘要
2002年以来,在我国东南沿海爆发了大黄鱼的内脏白点病,该病的特点是能够在大黄鱼内脏器官如肝、脾、肾中形成白色结节,其致死率极高,目前尚未有有效办法进行防治,给大黄鱼养殖业造成了严重的经济损失。2013年,大黄鱼内脏白点病的致病病原菌被鉴定为杀香鱼假单胞菌。目前关于该胞菌的报道和研究仍很少。文章从全基因组测序注释的角度对大黄鱼内脏白点病病原杀香鱼假单胞菌及其毒力因子进行了综述。
Since 2002, visceral white spot disease of large yellow croaker has broken out in China's southeast coast. The disease resulted in the formation of white nodules in internal organs of large yellow croaker, such as the liver, spleen and kidney, which brought the high mortality rate and caused the serious economic losses. Now it has not yet effective approach to prevention. In 2013, the visceral white spot disease pathogen of large yellow croaker was determined as Pseudomonas plecoglossicida. Now, the reports and studies about Pseudomonas plecoglossicida and its virulence factors are still rare. Pseudomonas plecoglossicida and its virulence factors of large yellow croaker(Pseudosciaena crocea) were reviewed in this paper.
Since 2002, visceral white spot disease of large yellow croaker has broken out in China's southeast coast. The disease resulted in the formation of white nodules in internal organs of large yellow croaker, such as the liver, spleen and kidney, which brought the high mortality rate and caused the serious economic losses. Now it has not yet effective approach to prevention. In 2013, the visceral white spot disease pathogen of large yellow croaker was determined as Pseudomonas plecoglossicida. Now, the reports and studies about Pseudomonas plecoglossicida and its virulence factors are still rare. Pseudomonas plecoglossicida and its virulence factors of large yellow croaker(Pseudosciaena crocea) were reviewed in this paper.
引文
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[7]MAO Z,YE J,LI M,et al.Vaccination efficiency of surface antigens and killed whole cell of Pseudomonas putida in large yellow croaker(Pseudosciaena crocea)[J].Fish Shellfish Immunol,2013,35(2):375-381.
[8]MAO Z,QIU Y,ZHENG L,et al.Development of a visual loop-mediated isothermal amplification method for rapid detection of the bacterial pathogen Pseudomonas putida of the large yellow croaker(Pseudosciaena crocea)[J].J Microbiol Methods,2012,89(3):179-184.
[9]周涛,张继挺,王国良.香鱼假单胞菌SYBR GreenⅠ荧光定量PCR检测方法的建立[J].中国预防兽医学报,2015(01):35-39.
[10]IZUMI S,YAMAMOTO M,SUZUKI K,et al.Identification and detection of Pseudomonas plecoglossicida isolates with PCR primers targeting the gyr B region[J].J Fish Dis,2007,30(7):391-397.
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[12]SMOLOWITZ R,WADMAN E,CHIKARMANE H.Pseudomonas putida infections of the oyster toadfish(Opsanus tau)[J].Biological Bulletin,1998,25(7):229-231.
[13]DOM NECH A,FERN NDEZ-GARAYZ BAL J,LAWSON P,et al.Winter disease outbreak in sea-bream(Sparus aurata)associated with Pseudomonas anguilliseptica infection[J].Aquaculture,1997,156(3):317-326.
[14]O'BRIEN H E,THAKUR S,GUTTMAN D S.Evolution of plant pathogenesis in Pseudomonas syringae:a genomics perspective[J].Annual review of phytopathology,2011,4(9):269-289.
[15]BORICHA H,FULEKAR M.Pseudomonas plecoglossicida as a novel organism for the bioremediation of cypermethrin[J].Biology and medicine,2009,1(4):1-10.
[16]RAMAN G,MOHAN K,MANOHAR V,et al.Biodegradation of nicotine by a novel nicotine-degrading bacterium,Pseudomonas plecoglossicida TND35 and its new biotransformation intermediates[J].Biodegradation,2014,25(1):95-107.
[17]MULET M,LALUCAT J,GARC A-VALD S E.DNA sequence‐based analysis of the Pseudomonas species[J].Environ Microbiol,2010,12(6):1513-1530.
[18]KOBAYASHI T,IMAI M,ISHITAKA Y,et al.Histopathological studies of bacterial haemorrhagic ascites of ayu,Plecoglossus altivelis(Temminck&Schlegel)[J].J Fish Dis,2004,27(8):451-457.
[19]邱杨玉,郑磊,毛芝娟,et al.大黄鱼(Larimichthys crocea)内脏白点病的病原分离和组织病理学观察[J].微生物学通报,2012(03):361-370.
[20]胡娇,张飞,徐晓津,et al.大黄鱼(Pseudosciaena crocea)内脏白点病病原分离鉴定及致病性研究[J].海洋与湖沼,2014(02):409-417.
[21]SUKENDA W H.Immersion Immunization of Ayu(Plecoglossus altivelis)with Pseudomonas plecoglossicida Bacterin[J].Fish Pathology,1999,34(3):163-164.
[22]NINOMIYA K,YAMAMOTO M.Efficacy of oil-adjuvanted vaccines for bacterial hemorrhagic ascites in ayu Plecoglossus altivelis[J].Fish Pathology(Japan),2001,36(3):183-185.
[23]KINTSUJI H,NINOMIYA K,YAMAMOTO M.Vaccination with acetone-dry bacterin against bacterial hemorragic ascites of ayu Plecoglossus altivelis[J].Fish Pathology(Japan),2006,41(3):121-122.
[24]KAWATO Y,YASUIKE M,NAKAMURA Y,et al.Complete genome sequence analysis of two Pseudomonas plecoglossicida phages,potential therapeutic agents[J].Appl Environ Microbiol,2015,81(3):874-881.
[25]PARK S C,NAKAI T.Bacteriophage control of Pseudomonas plecoglossicida infection in ayu Plecoglossus altivelis[J].Dis Aquat Organ,2003,53(1):33-39.
[26]PARK S C,SHIMAMURA I,FUKUNAGA M,et al.Isolation of bacteriophages specific to a fish pathogen,Pseudomonas plecoglossicida,as a candidate for disease control[J].Appl Environ Microbiol,2000,66(4):1416-1422.
[27]RAMAN G,SAKTHIVEL N,PARK S.Draft Genome Sequence of a Novel Nicotine-Degrading Bacterium,Pseudomonas plecoglossicida TND35[J].Genome Announc,2015,3(4):e000375-e000380.
[28]LI X,LI C Z,MAO L Q,et al.Complete genome sequence of the cyclohexylamine-degrading Pseudomonas plecoglossicida Ny Z12[J].J Biotechnol,2015,19(9):29-30.
[29]CORDWELL S J.Technologies for bacterial surface proteomics[J].Current opinion in microbiology,2006,9(3):320-329.
[30]COSTA T R D,FELISBERTO-RODRIGUES C,MEIR A,et al.Secretion systems in Gram-negative bacteria:structural and mechanistic insights[J].Nat Rev Micro,2015,13(6):343-359.
[31]HUECK C J.Type III protein secretion systems in bacterial pathogens of animals and plants[J].Microbiol Mol Biol Rev,1998,62(2):379-433.
[32]GERLACH R G,HENSEL M.Protein secretion systems and adhesins:the molecular armory of Gram-negative pathogens[J].International Journal of Medical Microbiology,2007,297(6):401-415.
[33]CHANG J H,GOEL A K,GRANT S R,et al.Wake of the flood:ascribing functions to the wave of type III effector proteins of phytopathogenic bacteria[J].Current opinion in microbiology,2004,7(1):11-18.
[34]SAIER M H,JR.Evolution of bacterial type III protein secretion systems[J].Trends Microbiol,2004,12(3):113-115.
[35]ABBY S S,ROCHA E P.The non-flagellar type III secretion system evolved from the bacterial flagellum and diversified into host-cell adapted systems[J].PLo S Genet,2012,8(9):e1002983.
[36]AIZAWA S I.Bacterial flagella and type III secretion systems[J].FEMS Microbiol Lett,2001,202(2):157-164.
[37]LEE C A.Type III secretion systems:machines to deliver bacterial proteins into eukaryotic cells?[J].Trends Microbiol,1997,5(4):148-156.
[38]MOTA L J,CORNELIS G R.The bacterial injection kit:type III secretion systems[J].Ann Med,2005,37(4):234-249.
[39]COBURN B,SEKIROV I,FINLAY B B.Type III secretion systems and disease[J].Clinical microbiology reviews,2007,20(4):535-549.
[40]GALAN J E,LARA-TEJERO M,MARLOVITS T C,et al.Bacterial type III secretion systems:specialized nanomachines for protein delivery into target cells[J].Annu Rev Microbiol,2014,6(8):415-438.
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