基于环介导等温扩增技术检测雪松疫霉根腐病菌

雪松疫霉根腐病菌(Phytophthora lateralis Tucker et Milbrath)是一种重要的毁灭性植物病原菌,也是我国进境植物检疫性有害生物。目前,我国未有该病害发生的报道,为了防止P.lateralis的传入和扩散,需对其进行快速、准确的检测。本文利用环介导等温扩增技术(loop-mediated isothermal amplification,LAMP),以Ypt1基因为靶标序列,设计LAMP特异性引物,建立LAMP反应体系,并对灵敏度和特异性进行检测。结果表明:整个检测过程仅需80 min,即可通过肉眼观察直接判定检测结果。在特异性检测中,P.lateralis菌株都能观察到天蓝色的阳性反应,而其他疫霉菌和真菌供试菌株均呈阴性反应。在灵敏度检测中,最低检测限为100 pg/μL。该方法的建立为P.lateralis的检疫鉴定及其所致病害的快速诊断提供了新技术。     

香蕉分化芽BBTV DAS-ELISA检测方法的建立和应用

为了解海南海口香蕉分化芽携带香蕉束顶病毒(Banana bunchy top virus, BBTV)的情况, 本研究建立了双抗夹心酶联免疫反应(DAS-ELISA)检测法, 对来自海南地区组培厂的香蕉分化芽进行检测。检测结果表明, 6个品种1 852个香蕉分化芽平均带毒率为2.1%, 其中‘皇帝蕉’为1.98%, ‘粤科1号’为2.07%, ‘广粉蕉’为1.98%, ‘大蕉’为6.25%, ‘218’为1.89%, ‘巴西蕉’为2.25%。为了进一步验证ELISA结果的可靠性, 随机选取12个阳性样品提取总DNA进行PCR鉴定。鉴定结果显示, 12个样品中11个检测出有BBTV, 表明DAS-ELISA方法的准确率较高, 与分子检测结果基本一致, 可以胜任日常香蕉组培苗BBTV的检测。     

抗草甘膦转基因大豆Cp4-epsps基因快速简便的LAMP检测方法

针对抗草甘膦转基因大豆的外源基因Cp4-epsps,建立了一种基于环介导等温扩增(loop-mediated isothermal amplification,LAMP)技术的抗草甘膦转基因大豆的检测体系,其扩增产物既可利用常规琼脂糖凝胶电泳检测,还可通过SYBR Green I染色进行快速检测。LAMP检测体系中dNTPs浓度为0.8 mmol/L、Mg2+浓度为3mmol/L、反应时间为45min时扩增效果最佳,其检测灵敏度为5μg/L,比常规PCR灵敏100倍。田间实际检测结果表明,LAMP检测结果和PCR检测结果完全一致,准确率为100%。本研究所建立的抗草甘膦转基因大豆LAMP检测方法具有简便快速、特异性强、灵敏度高等特征,是一种能够用于抗草甘膦转基因大豆检测、田间基因漂移监测和环境安全研究的有力工具。     

反转录环介导等温扩增技术检测藜草花叶病毒

正藜草花叶病毒(Sowbane mosaic virus,SoMV)为南方菜豆花叶病毒属Sobemovirus的成员,被我国列为禁止进境的检疫性有害生物,它不仅可以侵染藜科杂草,也可侵染葡萄、甜菜、菠菜等经济植物(沈淑琳,1990),主要分布于欧洲及南北美洲国家及南非、日本、土耳其等国家或地区,可通过汁液、昆虫及种子传播。目前,国内外已建立了SoMV的RT-PCR检测方法(陈青等,2010),但尚未有反转录环介导等温扩增     

Effect of temperature, vector life stage, and plant access period on transmission of banana bunchy top virus to banana

The study of the transmission biology of insect-borne plant viruses is important to develop disease control practices. We characterized the transmission of a nanovirus, Banana bunchy top virus (BBTV), by its aphid vector Pentalonia nigronervosa Coquerel (Hemiptera, Aphididae) with respect to temperature, vector life stage, and plant access time. Adult aphids transmitted BBTV more efficiently than third instar nymphs at all temperatures tested. Adult aphids transmitted the virus more efficiently at 25 and 30 degrees C than at 20 degrees C, but temperature had no impact on transmission efficiency by nymphs. By decoupling the relationship between temperature and aphid BBTV acquisition or inoculation, we determined that temperature affected inoculation events more strongly than acquisition. Longer plant access periods increased viral acquisition and inoculation efficiencies in a range of 60 min to 24 h. Both BBTV acquisition and inoculation efficiencies peaked after 18 h of plant access period. We also show that BBTV transmission by P. nigronervosa requires a latent period. Our results demonstrate that vector transmission of BBTV is affected by temperature, vector life stage, and plant access period.     

Rapid and reliable detection of phytoplasma by loop-mediated isothermal amplification targeting a housekeeping gene

Phytoplasmas are plant pathogenic bacteria that infect more than 700 plant species. Because phytoplasma-resistant cultivars are not available for the vast majority of crops, the most common practice to prevent phytoplasma diseases is to remove infected plants. Therefore, developing a rapid, accurate diagnostic method to detect a phytoplasma infection is important. Here, we developed a phytoplasma detection assay based on loop-mediated isothermal amplification (LAMP) by targeting the groEL gene and 16S rDNA. We designed 19 primer sets for the LAMP assay and evaluated their amplification efficiency, sensitivity, and spectra to select the most suitable primer sets to detect Candidatus Phytoplasma asteris. As a result, DNA was efficiently amplified by one of the primer sets targeting the groEL gene, and LAMP assay sensitivity with this primer set was 10-fold higher than that of the polymerase chain reaction. Moreover, the groEL gene was successfully amplified from several strains of Ca. Phytoplasma asteris by this primer set, indicating that the groEL gene can be used as a LAMP assay target gene for a broad range of phytoplasma strains. Additionally, a simple DNA extraction method that omits the homogenizing and phenol extraction steps was combined with the LAMP assay to develop a simple, rapid, and convenient diagnostic method for detecting phytoplasma.     

苹果轮纹病菌LAMP快速检测方法的建立

为建立快捷、灵敏检测苹果轮纹病菌Botryosphaeria dothidea的环介导等温扩增(loop-medi‐ated isothermal amplification,LAMP)检测方法,以其内转录间隔区ITS序列为靶标,设计6条LAMP引物,对其特异性进行检测,优化反应条件并建立苹果轮纹病菌的LAMP检测方法。引物特异性检测结果表明,2株苹果轮纹病菌反应结果呈绿色为阳性,而其它3株对照菌株反应结果呈橙色为阴性,表明了LAMP检测引物的高特异性。优化后的LAMP最佳反应条件:温度65℃、扩增时间60 min、FIP/BIP、F3/B3、LF/LB引物终浓度分别为1.0、0.25、0.5μmol/L。LAMP检测方法对苹果轮纹病菌DNA的检测灵敏度达到了100 ag/μL,是常规PCR检测灵敏度的100倍。田间疑似轮纹病组织检测结果发现LAMP方法对苹果轮纹病菌的检出率高达68%,而传统分离鉴定方法的检出率仅为24%。表明所建立的苹果轮纹病菌LAMP快速检测方法简便快捷、特异性好、灵敏度高,尤其适用于基层植保机构对于苹果轮纹病菌的田间快速检测。     

水稻细菌性条斑病菌LAMP快速检测方法的建立

以SYBR Green I荧光染料为指示剂,针对水稻细菌性条斑病菌糖基转移酶,设计了4条普通LAMP引物,并在此基础上设计了2条LAMP环引物,建立了水稻细菌性条斑病菌的环介导等温扩增可视化快速检测方法。结果表明:水稻细菌性条斑病菌呈荧光的阳性反应,近缘菌株则呈橙色的阴性反应;检测灵敏度DNA为100 fg/μL,菌悬液为3×103 cfu/m L。LAMP技术的建立为现场检疫和大规模检测提供了新的方法。     

Urine sample used for detection of toxoplasma gondii infection by loop-mediated isothermal amplification (LAMP)

In this study, a loop-mediated isothermal amplification (LAMP) assay was established to detect Toxoplasma gondii DNA in mice infected with T. gondii PRU strain. This LAMP assay was based on the sequence of highly repetitive B1 gene. The detection limit of T. gondii LAMP assay was 1 pg of T. gondii DNA, which was evaluated using 10-fold serially diluted DNA of cultured parasites. The LAMP assay was also highly specific for T. gondii and able to detect T. gondii DNA in urine of mice treated with dexamethasone at 90 day post infection (p.i.), although this assay could not detect the DNA in mice urine 2-6 days p.i. These results demonstrated that LAMP is effective for evaluation of therapy effectiveness for T. gondii infection. The established LAMP assay may represent a useful and practical tool for the routine diagnosis and therapeutic evaluation of human toxoplasmosis.     

基于rDNA-ITS序列建立LAMP检测水稻潜根线虫的方法

水稻潜根线虫(Hirschmanniella oryzae)在水稻产区普遍存在,是水稻(Oryza spp.)的主要植物寄生线虫,在世界范围内造成产量损失.本研究通过比较GenBank数据库中潜根属线虫相关序列,以水稻潜根线虫ITS-rDNA序列为靶标,设计了水稻潜根线虫LAMP的一组特异性引物,包括一对外引物(F3:...     

Development of a real-time fluorescence loop-mediated isothermal amplification assay for rapid and quantitative detection of Fusarium mangiferae associated with mango malformation

Fusarium mangiferae is a major causal agent of mango malformation disease (MMD) worldwide. Rapid and accurate detection of the causal pathogen is the cornerstone of integrated disease management. In this paper, a real-time fluorescence loop-mediated isothermal amplification assay (RealAmp) was developed for quantitative detection of F. mangiferae in China. The LAMP primer set was designed based on a RAPD marker sequence and positive products were amplified only from F. mangiferae isolates, but not from any other species tested, showing a high specificity of the primer sets. The detection limit was approximately 2.26 × 10⁻⁴ ng/μl plasmid DNA when mixed with extracted mango DNA. Quantification of the pathogen DNA of MMD in naturally collected samples was no significant difference compared to classic real-time PCR Additionally, RealAmp assay was visual with an improved closed-tube visual detection system making the assay more convenient in diagnostics.     

Development of a loop-mediated isothermal amplification assay for rapid and sensitive detection of Fusarium oxysporum f. sp. cubense race 4

Fusarium wilt (Panama disease), caused by the fungus Fusarium oxysporum f. sp. cubense race 4 (Foc race 4), is one of the most destructive diseases affecting banana (Musa). Early and accurate detection of Foc race 4 is essential to protect the banana industry. We developed a novel and highly specific loop-mediated isothermal amplification (LAMP) assay for the detection of Foc race 4 based on a SCAR marker sequence. The detection limit for this assay was 10 fg per 25 μl reaction in pure culture and DNA amplification was completed within 60 min. The assays detected 69 different isolates of Foc race 4 from geographically distinct counties in China, and no cross-reaction was observed with other fungal pathogens. When 26 infected and eight healthy looking but infested banana samples naturally from different fields were examined, the detection rate of LAMP was 100 %. The LAMP assay developed in this study was simple, fast, sensitive, and specific, and can be used in the field to detect Foc race 4 in infected banana plant tissue in resource-poor settings.     

黄瓜花叶病毒NASBA检测技术的建立

 以香蕉花叶病病样为材料,初步建立了黄瓜花叶病毒核酸序列依赖性扩增(Nucleic acid sequence based amplifica-tion,NASBA)的检测技术。通过以香蕉叶片总RNA为模板,在黄瓜花叶病毒(Cucumber mosaic virus,CMV)亚组ⅠRNA 2高保守区设计特异引物,进行NASBA反应,经5%琼脂糖凝胶电泳检测,阳性样品中出现了预期大小为310 bp的条带,而阴性和空白对照中均未出现。并对11份香蕉样品分别进行NASBA反应,并经过斑点杂交验证与RT-PCR检测比较,两者的检测结果一致,灵敏度相当,检出限量可达100 pg。     

水稻种子携带稻瘟病菌LAMP检测方法的建立与应用

稻瘟病菌Magnaporthe oryzae可通过种子带菌实现远距离传播,导致病害发生并造成严重经济损失。建立灵敏高效且便于操作的水稻种子携带稻瘟病菌的检测方法,是确保种子健康和控制病害发生的先决条件。本研究选取稻瘟病菌的3-磷酸甘油酰基转移酶基因MoSPC3设计合成3对特异性引物,并对反应体系进行优化,建立了环介导等温扩增(loop-mediated isothermal amplification, LAMP)方法。该方法可特异性地检测稻瘟病菌,对稻瘟病菌DNA样品的检测灵敏度可达到0.24拷贝/μL,远高于普通PCR的检测灵敏度。将该方法用于从中国和马来西亚不同水稻种植区收集的92份水稻种子样品携带稻瘟病菌的检测,结果显示,LAMP方法共检测到89份阳性样品,而普通PCR仅显示有2份样品为阳性。综上,本研究建立了一种适用于水稻种子携带稻瘟病菌的LAMP检测方法,具有简便快捷、灵敏度高等特点,丰富了稻瘟病菌的检测体系,可用于大批量水稻种子样品的健康检测。     

Development of a loop-mediated isothermal amplification procedure as a sensitive and rapid method for detection of 'candidatus Liberibacter solanacearum' in potatoes and Psyllids

This study reports the development of a loop-mediated isothermal amplification procedure (LAMP) for polymerase chain reaction (PCR)-based detection of 'Candidatus Liberibacter solanacearum', the bacterial causal agent of potato zebra chip (ZC) disease. The 16S rDNA gene of 'Ca. Liberibacter solanacearum' was used to design a set of six primers for LAMP PCR detection of the bacterial pathogen in potato plants and the psyllid vector. The advantage of the LAMP method is that it does not require a thermocycler for amplification or agarose gel electrophoresis for resolution. Positive LAMP results can be visualized directly as a precipitate. The LAMP strategy reported here reliably detected 'Ca. Liberibacter solanacearum' and the closely related species 'Ca. Liberibacter asiaticus', the causative agent of huanglongbing disease of citrus, in plant DNA extracts. Although not as sensitive as quantitative real-time PCR, LAMP detection was equivalent to conventional PCR in tests of ZC-infected potato plants from the field. Thus, the LAMP method shows strong promise as a reliable, rapid, and cost-effective method of detecting 'Ca. Liberibacter' pathogens in psyllids and field-grown potato plants and tubers.