西花蓟马的SCAR分子检测技术

西花蓟马Frankliniella occidentalis （Pergande）是一种世界性入侵害虫,寄主范围广,危害严重,2003年首次在我国发生危害,并有进一步扩散蔓延的趋势。针对蓟马类害虫虫体微小、形态相似,难以准确快速区分的问题,采用特征序列扩增区域（SCAR）标记技术,以西花蓟马及与之同域发生的其他种类蓟马为对象,筛选出1对西花蓟马特异性引物（FOMF/FOMR）,其扩增片段大小为320 bp。种特异性检测结果显示,该对引物只对西花蓟马的基因组DNA具有扩增能力,对同域发生的花蓟马F. intonsa （Trybom）、禾花蓟马F. tenuicornis （Uzel）、烟蓟马Thrips tabaci L. 等41种蓟马不具有扩增效果。该对引物不仅对不同虫态的西花蓟马具有扩增能力,而且在西花蓟马发生地的寄主植物组织内亦检测到了其卵的存在。同时,该检测技术灵敏度高,对成虫的最低检出阈值为1/160头。本检测技术在口岸检疫以及花卉、蔬菜和种苗调运中的害虫检测和监测中具有重要意义。     

基于Taqman-MGB探针的亚稀褶红菇实时荧光定量PCR检测方法

本研究建立了一种基于Taqman-MGB探针的亚稀褶红菇Russula subnigricans实时荧光定量PCR检测方法。根据亚稀褶红菇与其近似种的内转录间隔区（internal transcribed spacers,ITS）序列差异,设计合成1对引物和1条特异性Taqman-MGB探针,并用常见有毒红菇种类进行验证。结果显示,引物特异性良好,仅亚稀褶红菇出现荧光信号,完成整个检测过程只需2h。该法能够为毒蘑菇中毒的快速检测提供技术支持。     

临床皮炎外瓶霉荧光定量PCR检测方法的建立

目的 建立基于TaqMan探针技术的皮炎外瓶霉荧光定量PCR检测方法.方法 通过对皮炎外瓶霉ITS区域基因组序列（GenBank：JN675373.1）进行分析,设计合成特异性引物和荧光标记探针,优化荧光定量PCR反应条件.以临床标本中分离的皮炎外瓶霉为阳性菌株,及其他种类真菌和细菌作为阴性对照菌株,从特异性、敏感性及重复性方面对该方法检测效果进行评价.结果 该研究设计的引物和探针能扩增皮炎外瓶霉特异性序列.临床分离得到的皮炎外瓶霉在反应中有明显扩增曲线,而甄氏外瓶霉、棘状外瓶霉、烟曲霉、白色念珠菌、新生隐球菌、马内菲青霉等20株菌在CT值≤38范围内均未有扩增;利用基因重组构建的标准品完成了标准曲线的绘制,在1.0×103～1.0×107拷贝数（Cp）内具有良好的线性关系（R2=1.000）,最低可检出量为10 Cp/μL.结论 成功建立了荧光定量PCR检测皮炎外瓶霉方法,该法特异度强、敏感度高、重复性好,将有助于临床皮炎外瓶霉感染的早期诊断和针对性治疗.     

新型MGB探针在沙眼衣原体实时PCR检测中的应用

为建立基于TaqMan-MGB探针的沙眼衣原体DNA荧光定量PCR检测方法,探讨其临床应用价值,用 PCR法扩增沙眼衣原体隐蔽质粒pLVG440 2 464～2 980 nt段,并克隆入pMD18-T载体用作参比模板,设计一对引物和一个TaqMan-MGB探针,优化反应条件,建立沙眼衣原体DNA荧光定量PCR检测系统,并运用该系统同时应用连接酶链式反应(LCR)法对临床标本进行检测.结果显示所建立的沙眼衣原体DNA荧光定量PCR检测系统,最低检测限度为1 DNA拷贝每反应;在10⁰～10⁹ DNA拷贝每反应范围内,C_t值(每个反应管内的荧光信号达到设定的域值时所经历的循环数）和DNA拷贝数呈线性关系（r＞0.990）;对临床标本检测结果同LCR分析结果吻合率为100%.以上结果表明,所建立的基于TaqMan-MGB探针的沙眼衣原体DNA荧光定量PCR检测系统具有敏感性高、特异性强和线性检测范围广等特点,适用于对沙眼衣原体进行大规模筛选.     

西花蓟马EST-SSR信息分析、标记筛选及其与Genomic-SSR的多态性比较

西花蓟马Frankliniella occidentalis是一种世界性入侵昆虫, 近年来传入我国并不断扩散蔓延。基于简单重复序列（simple sequence repeats, SSRs）的西花蓟马种群遗传结构研究对于揭示其传播途径等具有重要的指导价值。本研究对来源于西花蓟马的13 839条EST序列进行了uni-EST组装、 EST-SSR信息分析以及标记筛选, 并比较了EST-SSR与Genomic-SSR在分析遗传多样性方面的差异。结果表明： 在7 707个singlets中共找到2 623个SSR位点, 分布于1 930个uni-EST中, 平均每2.21 kb就出现一个SSR位点。重复单元中, 以单碱基重复单元为主（83.00%）, 其次是四碱基重复单元（11.17%）, 而二、 三、 五和六碱基重复单元所占比例较低（分别为1.41%, 0.80%, 2.02%和0.91%）。设计出的22对EST-SSR引物中, 4对引物能稳定扩增出清晰的目的条带; 荧光标记毛细管电泳发现3对引物表现出多态性。西花蓟马EST-SSR与Genomic-SSR多态性分析表明, 这3对多态性EST-SSR引物揭示的多态信息含量（PIC）为0.48~0.69, 比5对多态性Genomic-SSR引物揭示的PIC（0.88~0.92）略低。本研究结果可为今后更深入开展西花蓟马的种群遗传结构分析提供帮助。     

西花蓟马检测鉴定技术研究进展

西花蓟马是一种世界性的入侵害虫,2003年首次在北京发现,目前仅在我国局部地区发生。其危害严重,潜在适生区广,且具有进一步扩散蔓延的趋势。快速准确的检测鉴定技术是防止其进一步扩散蔓延,保障我国农业生产健康发展的必要前提。综合相关报道,用于西花蓟马的检测鉴定技术包括传统的形态学特征鉴定法、由此衍生的计算机软件识别法,以及分子检测技术,如RAPD-PCR法、DNA序列分析法、PCR-RFLP法、SCAR分子标记技术、实时荧光定量PCR检测技术以及蛋白质分析技术等。其中,基因芯片和DNA条形编码技术作为新兴的物种鉴定手段,在西花蓟马等入侵物种的检测鉴定中具有广阔的应用前景。     

转g10-epsps基因耐除草剂大豆ZUTS-33转化体特异性检测方法的建立

转g10-epsps基因耐除草剂大豆ZUTS-33是由浙江大学研发的耐除草剂大豆品系,目前已进入生产性试验阶段。到目前为止尚无文献报道对该转基因新品种的检测方法,因此亟需建立精准的定量检测方法为农业转基因生物安全管理提供技术支持。根据耐除草剂大豆ZUTS-33品系外源基因插入位点特异序列设计引物和TaqMan探针,利用优化的实时荧光定量PCR检测方法评价该引物对和探针的特异性、准确度、精确度和重复性,并确定此检测方法的检测极限（limit of detection,LOD）和定量极限（limit of quantity,LOQ）。实验结果显示,研究所建立的转基因大豆ZUTS-33转化体特异性实时荧光定量PCR检测方法具有高度的品系鉴定特异性,准确度、精确度均符合要求,重复性较好,且检测方法的LOD达到20拷贝,LOQ达到40拷贝。研究结果为转g10-epsps基因耐除草剂大豆ZUTS-33的身份识别和检测监测提供了有效的方法。     

O1群霍乱弧菌实时荧光定量PCR快速检测方法的建立

目的:建立针对O1群霍乱弧菌的实时荧光定量TaqMan PCR快速检测方法,并进行模拟粪便标本的检测评价。方法:根据O1群霍乱弧菌O抗原编码基因rfb的特异性序列设计引物和TaqMan探针,建立检测O1群霍乱弧菌的实时荧光定量TaqMan PCR快速检测方法,对所建立的方法分别进行实验室内的灵敏度及特异性评价;将O1群霍乱弧菌灭活菌株悬液倍比稀释后与健康成人新鲜粪便混匀,制备成模拟带菌者粪便标本,提取DNA,进行Taq-Man PCR检测,用以评价该方法。结果:建立了快速检测O1群霍乱弧菌的实时荧光定量TaqMan PCR方法,灵敏度为每反应体系104拷贝;该方法对其他14种肠道菌DNA没有扩增;该方法对模拟粪便标本的检测灵敏度为每反应体系102 CFU。结论:建立了一种快速、高效检测O1群霍乱弧菌的荧光定量PCR检测方法,该方法可用于O1群霍乱弧菌临床粪便标本的检测。     

TaqMan实时荧光定量RT-PCR检测甲型肝炎减毒活疫苗病毒含量的研究

目的：建立一种快速定量检测甲型肝炎减毒活疫苗病毒含量的实时荧光定量RT-PCR方法。方法对Gen-Bank中登陆的甲型肝炎减毒活疫苗株（ L-A-1）和其他甲型肝炎病毒基因组全序列比较分析,根据其高度保守的5′端非编码区设计针对甲型肝炎减毒活疫苗株特异性引物与探针,对荧光定量RT-PCR反应条件进行优化,检测该方法的特异性和灵敏性,并对甲型肝炎减毒活疫苗病毒含量进行定量检测。结果该方法对甲型肝炎减毒活疫苗株高度特异,扩增片段为207 bp,不与其他肠道病毒发生非特异性反应。在104 CCID50/管～10-1 CCID50/管之间有良好的扩增曲线,检测的灵敏度可达0．1CCID50～0．01CCID50,比普通RT-PCR高100倍。结论该方法具有快速、灵敏、特异、重复性好等优点,可应用于甲型肝炎减毒活疫苗生产过程中病毒含量滴度测定及指导疫苗成品的配制。     

复合探针荧光定量PCR法检测布鲁氏菌的实验研究

目的：建立用复合探针荧光定量PCR快速检测布鲁氏菌的方法。方法：研究根据BSCP31基因编码31KDa的布鲁氏杆菌表面蛋白的核苷酸序列设计特异引物,通过PCR法的特异性、灵敏度和重复性研究,建立了复合探针荧光定量PCR检测布鲁氏菌的方法。用于布鲁氏菌病的筛选和诊断。结果：结果表明该检测方法的特异性为100％,最低可检出10个拷贝的质粒DNA分子,可对1×10^1-1×10^6拷贝范围内的模板进行定量,最低可检测至1×10^2CFU／ml细菌。该方法的精密度好,阳性质控品和阴性质控品不同时间测定三次及同一时间五次重复实验结果CV值均小于5％。结论：本研究建立的复合探针实时荧光定量PCR检测布鲁氏杆菌的方法,可对布鲁氏病原菌进行快速检测,对布病的筛选和确诊具有重要意义。     

Identification of Orchidaceae species of Northern West of Syria based on chloroplast DNA

The plant family Orchidaceae has a great economic value (ornamental and medical uses, beside the aromatic features). Traditionally, identification of orchid species has relied heavily on morphological features. These features, however, are either not variable enough between species or too plastic to be used for identification at the species level. DNA-based markers could be the alternative strategy towards an accurate and robust identification of those species. Since the chloroplast DNA has a lower level of evolution compared to the nuclear genome, an attempt was made in this study to investigate polymorphism in the chloroplast DNA among orchid species distributed in North-West region of Syria using Cleaved Amplified Polymorphic Sequence (CAPS) technique for developing markers for the diagnosis of targeted species. CAPS analysis was carried out on 34 orchid samples that represent all species observed in the region. Universal primers were used to amplify targeted chloroplast regions. Generated PCR products were digested with various restriction enzymes. CAPS results revealed high polymorphism among species examined. This polymorphism was suffiecient for the diagnosis of all of those species apart from five species (Ophrys fuciflora (one sample), Oph. bornmuelleri, Ophrys sp., scolopax and Oph. argolica). Availability of such species-specific markers would ensure more authentic identification of orchid species compared to morphological characters and can be regarded as a valuable tool to guide in conservation programs of orchid species in Syria. CAPS data generated were converted to an identification key for orchid species studied.     

A FAFLP system for the improved identification of plant-pathogenic and plant-associated species of the genus Pantoea

The majority of Pantoea species are either plant-pathogenic or plant-associated and cause a wide variety of symptoms on a range of hosts. Identification of Pantoea species is difficult due to minor differences in phenotypic characteristics between them and related Enterobacteriaceae. Fluorescent amplified fragment length polymorphism (FAFLP) analysis was investigated for use as a rapid, molecular-based identification technique to the species level of the genus Pantoea. Following analysis of the band patterns generated by FAFLP, seven distinct clusters were observed, one for each validly published species of the genus. FAFLP has proven to be a rapid, reproducible identification technique for all species of the genus Pantoea.     

Single-nucleotide polymorphism characterization in species with limited available sequence information: high nucleotide diversity revealed in the avian genome

As a case study for single-nucleotide polymorphism (SNP) identification in species for which little or no sequence information is available, we investigated several approaches to identifying SNPs in two passerine bird species: pied and collared flycatchers (Ficedula hypoleuca and F. albicollis). All approaches were successful in identifying sequence polymorphism and over 50 candidate SNPs per species were identified from approximately 9.1 kb of sequence. In addition, 17 sites were identified in which the frequency of alternative bases differed by > 50% between species (termed interspecific SNPs). Interestingly, polymorphism of microsatellite/intron loci in the source species appeared to be a positive predictor of nucleotide diversity in homologous flycatcher sequences. The overall nucleotide diversity of flycatchers was 2.3-2.7 x 10(-3), which is approximately 3-6 times higher than observed in recent studies of human SNPs. Higher nucleotide diversity in the avian genome could be due to the relatively older age of flycatcher populations, compared with humans, and/or a higher long-term effective population size.     

Molecular identification of mosquito species

Complexes of closely related cryptic species, that are indistinguishable morphologically yet have different ecology and host preferences, are widespread in mosquitoes. The advantages of DNA-based methods of identification mean that they have now largely replaced other methods of species determination for such complexes. Here we discuss the relative merits of three different approaches to species identification, all of which use amplification of the ribosomal RNA genes by the polymerase chain reaction. They include: restriction fragment length polymorphism in the Anopheles maculipennis complex from the UK; allele-specific amplification in the An. dims complex from Thailand; and single strand conformational polymorphism in the An. minimus complex from Thailand. The application of these methods is considered in the context of recent data on intraspecific genetic variation, geographic population structure and genetic introgression.     

Further studies on the molecular systematics of Biomphalaria snails from Brazil

The polymerase chain reaction and restriction fragment length polymorphism (RFLP) of the internal transcribed spacer (ITS) region of the rRNA gene, using the enzyme DdeI were used for the molecular identification of ten species and one subspecies of Brazilian Biomphalaria. Emphasis is given to the analysis of B. oligoza, B. schrammi and B. amazonica. The RFLP profiles obtained using this enzyme were highly distinctive for the majority of the species and exhibited low levels of intraspecific polymorphism among specimens from different regions of Brazil. However, B. peregrina and B. oligoza presented very similar profiles that complicated their identification at the molecular level and suggested a very close genetic similarity between the two species. Others enzymes including HaeIII, HpaII, AluI and MnlI were tested for their ability to differentiate these species. For B. amazonica three variant profiles produced with DdeI were observed. The study demonstrated that the ITS contains useful genetic markers for the identification of these snails     

Use of 16S-23S rRNA spacer-region (SR)-PCR for identification of intestinal clostridia

The suitability of a species identification technique based on PCR analysis of 16S-23S rRNA spacer region (SR) polymorphism for human intestinal Clostridium species was evaluated. This SR-PCR based technique is highly reproducible and successfully differentiated the strains tested, which included 17 ATCC type strains of Clostridium and 152 human stool Clostridium isolates, at the species or intraspecies level. Ninety-eight of 152 stool isolates, including C. bifermentans, C. butyricum, C. cadaveris, C. orbiscindens, C. paraputrificum, C. pefringens, C. ramosum, C. scindens, C. spiroforme, C. symbiosum and C. tertium, were identified to species level by SR-PCR patterns that were identical to those of their corresponding ATCC type strains. The other 54 stool isolates distributed among ten SR-PCR patterns that are unique and possibly represent ten novel Clostridium species or subspecies. The species identification obtained by SR-PCR pattern analysis completely agreed with that obtained by 16S rRNA sequencing, and led to identification that clearly differed from that obtained by cellular fatty acid analysis for 23/152 strains (15%). These results indicate that SR-PCR provides an accurate and rapid molecular method for the identification of human intestinal Clostridium species.     

Single-strand conformational polymorphism analysis of the ribosomal internal transcribed spacer 1 for rapid species identification within the genus Pythium

Single-strand conformational polymorphism (SSCP) of the ribosomal internal transcribed spacer 1 (ITS-1) was characterized for 58 isolates of Pythium, representing 41 species from the five groups of Plaats-Niterink. Thirty-one species each produced a distinct SSCP pattern. Three species produced more than one unique pattern, corresponding to morphological subgrouping. The remaining seven species produced three distinct patterns with two or three morphologically similar species sharing a pattern. A successful blind test with four samples and the identification of eight previously unknown isolates from irrigation water demonstrated the reliability of this technique for species identification. Each SSCP pattern was defined and described by the positions of the top and bottom bands and the number of bands in between, which allows laboratories to use this technique without need to access the type isolates of Pythium species.     

The utility of internally transcribed spacer 2 DNA sequences of the nuclear ribosomal gene for distinguishing sibling species of Trichogramma

The usefulness of the internally transcribed spacer 2 (ITS2) of the nuclear ribosomal gene complex is tested for providing taxonomic characters to identify Trichogramma species. The ITS2 sequences of a group of sibling species of the T. deion/T. pretiosum complexes were determined. A simple and precise identification key to the species of these assemblages was constructed using as taxonomic characters the size of the ITS2 and the difference in restriction length polymorphism of species with similarly sized ITS2. Individual wasps can be identified by amplification of their ITS2 with general primers, determining the size of the PCR product using standard agarose electrophoresis, followed in some species by a DNA-digestion with a restriction enzyme. Because this system works well for a number of closely related species we are hopeful that similar PCR-based identification can be extended to all species of the genus once their ITS2 sequences have been determined. The advantage of this identification system over the morphology-based system is that non-specialists are able to quickly and cheaply identify individual specimens. In addition, species specific primers were tested for the two most common species of these groups (i.e. T. pretiosum and T. deion). These primers can be used either as a direct identification tool or as a method to confirm the identification using the general key. The phylogeny of this group of wasps was also analyzed based on the ITS2 sequence.     

Occurrence and dominance of yeast species in sourdough

AIMS: The aim of this work is to identify the dominant yeast species in homemade sourdoughs. METHODS AND RESULTS: PCR/restriction fragment length polymorphism analysis of internal transcribed spacer regions was used for the identification of isolates and the data were confirmed with phenotypic tests. The strains belonging to Saccharomyces cerevisiae were identified to strain level by analysis of inter-delta regions. CONCLUSION: This work shows that the dominant species in homemade sourdoughs can differ from each other. Saccharomyces cerevisiae was found to be the dominant species, followed by the Candida milleri, C. humilis, S. exiguus and Issatchenkia orientalis. The inter-delta regions of S. cerevisiae strains showed high polymorphism. SIGNIFICANCE AND IMPACT OF THE STUDY: Occurrence of single, non-Saccharomyces species and S. cerevisiae polymorphism in the yeast populations of sourdough samples.     

Arbitrary Primer Based RAPD — A Useful Genetic Marker for Species Identification in Morels

Internal transcribed spacer (ITS) regions of 5.8S ribosomal DNA gene of 46 monospore cultures representing different species of family Morchellaceae were sequenced. Eight putative species namely Morchella esculenta, M. crassipes, M. angusticeps, M. conice, Mitrophora semilibera, Morchella spongiola, M. vulgaris and Verpa conica were designated to the sequenced cultures analyzed based on similarity with the best aligned sequence of the BLAST search. We recorded interspecific polymorphism in ITS regions of the 5.8S r-DNA gene amongst putative species of morels. However no intraspecific ITS polymorphism could be visualized amongst monospores from single and or different ascocarps collected from various geographical regions. PCR RAPDamplified profiles of different monospores were identical at intraspecific levels and could not be distinguished by eight arbitrary primers tested. RAPD profiles exhibited significant interspecific polymorphism distinguishing all the eight putative species from each other by primer OPP-6 (5’- GTG GGT TGA C- 3’) and a custom primer (5’-CGC ACC GCA G-3’). RAPDprofiles generated using aforesaid arbitrary primers can serve as useful genetic markers for species identification and to improve morel systematics. Present study is the first report on exploitation of random primers in species differentiation in morels.