| 196 | 2 | 38 |
| 下载次数 | 被引频次 | 阅读次数 |
再测序芯片(Resequencing Pathogen Microarray,RPM)是一种新的基于微阵列DNA芯片的病原体检测与鉴定技术。为了将RPM应用于不明原因呼吸道感染的检测,提高应对传染病暴发的能力,本研究建立了基于一种新型RPM的呼吸道多病原检测方法。该方法可以同时检测19种常见呼吸道病毒、9种甲型流感(Flu A)和11种鼻病毒(HRV)、28种肠病毒、18种少见呼吸道病毒。选取已验证的16种常见呼吸道病毒感染阳性的样本评价RPM的特异性,用克隆质粒或体外转录的RNA梯度稀释液来检验RPM的灵敏度,在10~103拷贝/反应水平时RPM仍能检测和分辨出相近的病毒亚型。将8份不明原因的咽拭子样品提取的核酸合并,用新建立的方法进行检测,根据RPM结果再以普通PCR加测序作为验证,同时和Abbott公司的质谱测序(PLEX-ID)结果进行比较,除RPM检出假阳性PIV1外,三者的其余检测结果一致。结果表明,这种基于新型RPM的方法具有高灵敏度、高通量的优点,对应对新发和突发传染病具有重要意义。
Abstract:Resequencing Pathogen Microarray(RPM) is a new pathogen detection and identification technology based on DNA microarray.In order to apply RPM in the detection of unexplained infection and as a result,to improve the emergency response capacity,a new RPM-based respiratory pathogens detection assay was developed to simultaneously detect 19 common respiratory viruses,9 influenza A viruses(Flu A),11 human rhinoviruses(HRV),28 enteroviruses and 18 rare respiratory viruses.The specificity of multiplex system was examined by confirmed positive specimens for 16 common respiratory virus.The sensitivity was evaluated by serial ten-fold dilutions of plasmids or in vitro-transcribed RNA.RPM could detect and differentiate 16 virus types/subtypes at 101 000 copies/reaction level.Nucleic acids of 8 throat swabs with unexplained respiratory tract infections were pooled and detected by the new assay.The RPM result was verified by common PCR followed by sequencing as well as PLEX-ID(Abbott).Except for a false-positive of PIV1,no difference among the three assays was found.These results indicate the assay based on the new RPM is a highly sensitive,high throughput test for the detection of respiratory virus infections,which is significant for the management of emergent and epidemic infectious disease.
[1]Cant A J,Gordon S B,Read R C,et al.Respiratory in-fections[J].J Med Microbiol,2002,51(11):903-914.
[2]李瑾,毛乃颖,秦萌,等.GeXP多重PCR技术同时检测12种常见呼吸道病毒[J].病毒学报,2011,27(6):526-532.
[3]杨宏伟,赵均秀,仇少荣,等.呼吸道感染病原菌分布及耐药性调查[J].中华医院感染学杂志,2004,14(7):817-820.
[4]Roth S B,Jalava J,Ruuskanen O,et al.Use of an oli-gonucleotide array for laboratory diagnosis of bacteriaresponsible for acute upper respiratory infections[J].JClin Microbiol,2004,42(9):4268-4274.
[5]Caliendo A M.Multiplex PCR and emerging technolo-gies for the detection of respiratory pathogens[J].ClinInfect Dis,2011,52Suppl 4:S326-330.
[6]Raymond F,Carbonneau J,Boucher N,et al.Compari-son of automated microarray detection with real-timePCR assays for detection of respiratory viruses in speci-mens obtained from children[J].J Clin Microbiol,2009,47(3):743-750.
[7]Beck E T,Jurgens L A,Kehl S C,et al.Developmentof a rapid automated influenza A,influenza B,and re-spiratory syncytial virus A/B multiplex real-time RT-PCR assay and its use during the 2009H1N1swine-ori-gin influenza virus epidemic in Milwaukee,Wisconsin[J].J Mol Diagn,2010,12(1):74-81.
[8]Zou S,Han J,Wen L,et al.Human influenza A virus(H5N1)detection by a novel multiplex PCR typingmethod[J].J Clin Microbiol,2007,45(6):1889-1892.
[9]Deyde V M,Sampath R,Garten R J,et al.Genomicsignature-based identification of influenza A viruses u-sing RT-PCR/electro-spray ionization mass spectrometry(ESI-MS)technology[J/OL].PLoS One,2010,5(10):e13293.
[10]Lin B,Blaney K M,Malanoski A P,et al.Using a re-sequencing microarray as a multiple respiratory patho-gen detection assay[J].J Clin Microbiol,2007,45(2):443-452.
[11]Malanoski A P,Lin B,Wang Z,et al.Automated i-dentification of multiple micro-organisms from rese-quencing DNA microarrays[J].Nucleic Acids Res,2006,34(18):5300-5311.
[12]Lin B,Wang Z,Vora G J,et al.Broad-spectrum re-spiratory tract pathogen identification using resequenc-ing DNA microarrays[J].Genome Res,2006,16(4):527-535.
[13]Metzgar D,Myers C A,Russell K L,et al.Single as-say for simultaneous detection and differential identifi-cation of human and avian influenza virus types,sub-types,and emergent variants[J/OL].PLoS One,2010,5(2):e8995.
[14]Lin B,Malanoski A P,Wang Z,et al.Universal de-tection and identification of Avian Influenza Virus byuse of resequencing microarrays[J].J Clin Microbiol,2009,47(4):988-993.
[15]Woo P C,Lau S K,Choi G K,et al.Resequencing mi-croarray for detection of human adenoviruses in patientswith conjunctivitis[J].J Clin Virol,2010,47:282-285.
[16]Woo P C,Lau S K,Lee P,et al.Resequencing mi-croarray for detection of human adenoviruses in patientswith community-acquired gastroenteritis:a proof-of-concept study[J].J Med Microbiol,2010,59:1387-1390.
[17]Leski T A,Ansumana R,Jimmy D H,et al.Massive-ly multiplexed microbial identification using resequenc-ing DNA microarrays for outbreak investigation[J].Presented at:SPIE Defense,Security and Sensing,Or-lando,F L,USA,16May 2011.
[18]Tabone T,Mather D E,Hayden M J.Temperatureswitch PCR(TSP):Robust assay design for reliableamplification and genotyping of SNPs[J].BMCGenomics,2009,10:580-593.
[19]De Vos N,Van Hoovels L,Vankeerberghen A,et al.Monitoring of herpes simplex virus in the lower respir-atory tract of critically ill patients using real-time PCR:aprospective study[J].Clin Microbiol Infect,2009,15(4):358-363.
基本信息:
DOI:10.13242/j.cnki.bingduxuebao.002378
中图分类号:R373.9
引用信息:
[1]申红卫,李瑾,王淼,等.一种基于新型再测序芯片的不明原因呼吸道感染样品检测方法的建立[J].病毒学报,2013,29(02):137-142.DOI:10.13242/j.cnki.bingduxuebao.002378.
基金信息:
传染病防治重大专项(2011ZX10004-001,2012ZX10004-215)
2013-03-29
2013-03-29
2013-03-29