植物DNA条形码技术

DNA条形码技术是利用标准的、具有足够变异的、易扩增且相对较短的DNA片段在物种内的特异性和种间的多样性而创建的一种新的生物身份识别系统, 从而实现对物种的快速自动鉴定。尽管这一技术在理论上和具体应用上仍存在很多争论, 但DNA条形码概念自2003年由加拿大分类学家Paul Hebert首次提出后就在世界范围内受到了广泛关注。在植物类群中条形码的研究和应用尚处于探索阶段, 稍落后于对动物类群的研究, 这主要表现在: (1) DNA条形码的选择及其评价仍没有统一的标准; (2) 对类群较全面的形态分类学修订和植物DNA条形码研究的结合十分缺乏; (3) 以往研究在取样上尺度较大, 而对具体类群的研究较少, 一个科或一个属只用有限的种类作为代表, 同一种内的取样个体数量也不足, 这样虽然表面上看来利用选定的DNA条形码可以较容易地把代表物种区分开, 但实际上目前建议的植物DNA条形码(例如由生命条形码咨询委员会植物工作组最近提出的rbcL和matK)由于其分子进化速率较慢, 在种级水平上, 特别是对于那些经历了适应辐射或快速进化的属来说, 分辨率较低。而DNA条形码的应用主要集中在属内物种水平的鉴别, 因此只有针对具体类群进行探索研究, 发现进化速率较快、分辨率高且通用性好的条形码, 才可能为建立完整的条形码数据库起到积极有效的作用。     

植物DNA条形码技术

DNA条形码技术是利用标准的、具有足够变异的、易扩增且相对较短的DNA片段在物种内的特异性和种间的多样性而创建的一种新的生物身份识别系统,从而实现对物种的快速自动鉴定。尽管这一技术在理论上和具体应用上仍存在很多争论。但DNA条形码概念自2003年由加拿大分类学家Paul Hebert首次提出后就在世界范围内受到了广泛关注。在植物类群中条形码的研究和应用尚处于探索阶段,稍落后于对动物类群的研究,这主要表现在：（1）DNA条形码的选择及其评价仍没有统一的标准：（2）对类群较全面的形态分类学修订和植物DNA条形码研究的结合十分缺乏：（3）以往研究在取样上尺度较大,而对具体类群的研究较少,一个科或一个属只用有限的种类作为代表,同一种内的取样个体数量也不足,这样虽然表面上看来利用选定的DNA条形码可以较容易地把代表物种区分开,但实际上目前建议的植物DNA条形码（例如由生命条形码咨询委员会植物工作组最近提出的rbcL和matK）由于其分子进化速率较慢,在种级水平上,特别是对于那些经历了适应辐射或快速进化的属来说,分辨率较低。而DNA条形码的应用主要集中在属内物种水平的鉴别,因此只有针对具体类群进行探索研究,发现进化速率较快、分辨率高且通用性好的条形码,才可能为建立完整的条形码数据库起到积极有效的作用。     

Improved Quantification of DNA Methylation Using Methylation-Sensitive Restriction Enzymes and Real-Time PCR

Heterogeneity of cells with respect to the DNA methylation status at a specific CpG site is a problem when assessing methylation status. We have developed a simple two-step method for the quantification of the percent of cells that display methylation at a specific CpG site in the promoter of a specific gene. The first step is overnight digestion of genomic DNA (optimal conc. 20ng/5μl) with a relevant methylation-sensitive restriction enzyme (optimal 2 units). This is followed by real time PCR, using the SYBR® Green method, with primers that bracket the site cleaved by the enzyme. By including fully methylated and fully non-methylated DNA in each PCR plate, the errors caused by non-specific digestion or incomplete digestion can be measured and used to adjust the raw results and thus increase specificity. The method can detect differences in methylation status if these are more than 10%. No specialized equipment is required beyond the real-time PCR system and the method can be adapted for any of the 53 commercially available methylation-sensitive restriction enzymes.     

同步PCR技术及其在植物核酸分子定量中的应用

同步PCR是一种集生化、光电和计算机技术于一体的封闭式DNA扩增系统,采用荧光染料将扩增与检测过程结合在一起,实现了在PCR过程中在线显示PCR反应,通过检测荧光强度来绝对定量起始模板的拷贝数。该技术大大简化和加速了核酸分子的定量过程,不仅快速、灵敏、准确、重复性好,而且很容易计算出待测样品中核酸分子的绝对起始拷贝数。同微阵列等分子生物技术一起,同步PcR技术将会在功能基因解析和病害分子诊断等方面发挥重要作用。本综述除了介绍同步．PCR技术的原理和应用外,还介绍了定量拟南芥,Aux／正4,4基因的转录水平的实验,并就同步PCR操作过程中的问题进行了讨论。     

Patterns of Genomic Integration of Nuclear Chloroplast DNA Fragments in Plant Species

The transfer of organelle DNA fragments to the nuclear genome is frequently observed in eukaryotes. These transfers are thought to play an important role in gene and genome evolution of eukaryotes. In plants, such transfers occur from plastid to nuclear [nuclear plastid DNAs (NUPTs)] and mitochondrial to nuclear (nuclear mitochondrial DNAs) genomes. The amount and genomic organization of organelle DNA fragments have been studied in model plant species, such as Arabidopsis thaliana and rice. At present, publicly available genomic data can be used to conduct such studies in non-model plants. In this study, we analysed the amount and genomic organization of NUPTs in 17 plant species for which genome sequences are available. The amount and distribution of NUPTs varied among the species. We also estimated the distribution of NUPTs according to the time of integration (relative age) by conducting sequence similarity analysis between NUPTs and the plastid genome. The age distributions suggested that the present genomic constitutions of NUPTs could be explained by the combination of the rapidly eliminated deleterious parts and few but constantly existing less deleterious parts.     

Quantification of 2,4-Diacetylphloroglucinol-Producing Pseudomonas fluorescens Strains in the Plant Rhizosphere by Real-Time PCR

A real-time PCR SYBR green assay was developed to quantify populations of 2,4-diacetylphloroglucinol (2,4-DAPG)-producing (phlD⁺) strains of Pseudomonas fluorescens in soil and the rhizosphere. Primers were designed and PCR conditions were optimized to specifically amplify the phlD gene from four different genotypes of phlD⁺ P. fluorescens. Using purified genomic DNA and genomic DNA extracted from washes of wheat roots spiked with bacteria, standard curves relating the threshold cycles (C_Ts) and copies of the phlD gene were generated for P. fluorescens strains belonging to genotypes A (Pf-5), B (Q2-87), D (Q8r1-96 and FTAD1R34), and I (FTAD1R36). The detection limits of the optimized real-time PCR assay were 60 to 600 fg (8 to 80 CFU) for genomic DNA isolated from pure cultures of P. fluorescens and 600 fg to 6.0 pg (80 to 800 CFU, corresponding to log 4 to 5 phlD⁺ strain CFU/rhizosphere) for bacterial DNA extracted from plant root washes. The real-time PCR assay was utilized to quantify phlD⁺ pseudomonads in the wheat rhizosphere. Regression analysis of population densities detected by real-time PCR and by a previously described phlD-specific PCR-based dilution endpoint assay indicated a significant linear relationship (P = 0.0016, r² = 0.2). Validation of real-time PCR assays with environmental samples was performed with two different soils and demonstrated the detection of more than one genotype in Quincy take-all decline soil. The greatest advantage of the developed real-time PCR is culture independence, which allows determination of population densities and the genotype composition of 2,4-DAPG producers directly from the plant rhizospheres and soil.     

应用DNA条形码对植物标本的核查

DNA条形码主要目的是物种鉴定和新物种或隐存种的发现,而DNA条形码参考数据库是物种快速鉴定的重要基础。目前中国维管植物DNA条形码参考数据库正在建设之中,借助于公共数据库（NCBI）和初步建立的中国植物DNA条形码参考数据库,运用DNA条形码数据开展了植物标本鉴定的核查工作：（1）比较DNA序列信息与标本鉴定信息,从科、属、种级水平查找鉴定错误的标本;（2）基于有较好研究基础的DNA条形码参考数据库,开展未知标本的鉴定;（3）通过对标本核查的总结,提出DNA条形码参考数据库建设过程中的几点建议。     

DNA条形码技术及其在保护生物学中的应用

物质文明及生活水平的提升为人类带来诸多好处的同时,也使人们越来越清晰地意识到保护生物多样性及生态系统稳定性的重大意义.DNA条形码技术作为现今生物分类学中重要的分子技术,可以快速准确地鉴定物种.多国科学家都在致力于对DNA条形码的研究,以便能共同组建数据库.将现有物种正确分类并期望用于发现新种,为生物的保护及生态系统的维护作出巨大贡献.细胞色素C氧化酶亚单位I(COI)是现在动物种类鉴定中最常用的基因之一.综述DNA条形编码技术的产生、原理、发展概况与操作及其在保护动物分类中的应用.阐明该技术在保护生物学中应用的意义与可行性,并讨论DNA条形编码在生物分类应用中可能存在的问题.     

Quantification and Localization of Bacteria in Plant Tissues Using Quantitative Real-Time PCR and Online Emission Fingerprinting

In order to quantify and localize specific bacterial target genes in plant tissue, this project has generated relevant new insights in the combined application of quantitative real-time PCR in parallel with the in situ PCR + probe-hybridization and online emission fingerprinting using LSM 510 META. After designing an Enterobacter radicincitans species-specific probe, introduced bacterial cells were monitored in growing plant parts and their colonization behaviour was examined in relation to the native bacterial community. For this purpose, the plant growth-promoting rhizobacterial (PGPR) strain Enterobacter radicincitans was applied to Brassica oleracea plants in increasing inoculum concentrations 10⁷, 10⁸ and 10⁹ cells per plant. Inoculation of 10⁹ E. radicincitans cells per plant to Brassica oleracea leaves and roots resulted in significant increases of root, leaf and tuber growth. Total bacterial cell numbers were estimated using quantitative real-time PCR to be between 10⁷ and 10⁹ cells g⁻¹ fresh leaf weight and about 10⁸ cells g⁻¹ fresh root weight of Brassica oleracea plants. Using quantitative real-time PCR, a significant colonization of Brassica oleracea leaves and roots with E. radicincitans cells was measured. Roots were colonized with a density of 10⁷ cells g⁻¹ fresh root weight up to at least 14 days after inoculation. That is equivalent to a proportion of E. radicincitans 16S rDNA-gene copy numbers compared to the total bacterial communities of about 10–16%. Online emission fingerprinting established that the introduced bacteria proliferated on and inside the root and that they colonized the intercellular spaces of the root cortex layer. Hence, E. radicincitans was able to successfully compete with the native bacterial population.     

实时PCR技术在植物研究上的应用

实时PCR是在常规PCR基础上运用荧光共振能量转移现象,加入荧光标记探针,巧妙地把核酸扩增、杂交、光谱分析和实时检测技术结合在一起的一项新技术,具有快速、灵敏、特异性强、定量准确等特点,广泛应用于医学、检验检疫、军事、农业、基础研究等领域。着重就实时PCR技术的特性及在植物上的应用进行了讨论,并与目前常用的相关技术进行了比较。     

结合叶绿体和核DNA序列变异可提高云杉属物种的分子鉴别率

松科(Pinaceae)云杉属(Picea)植物是北半球广泛分布的重要森林树种,由于频繁的种间杂交渐渗及近期的辐射分化导致种间形态趋同,传统的形态学方法很难准确鉴定该属物种.近期兴起和发展的DNA条形码技术为云杉属物种的划分和鉴定提供了可参考的方法.在云杉属青藏高原种质资源收集过程完成后,选取5个叶绿体DNA片段(matK,rbcL,trnH-psbA,trnL-trnF和trnS-trnG)以及3个核DNA片段(4CL,Sb29和GI),利用PWG-distance和Tree-Building两种方法对青藏高原以及中国其他地区分布的19个云杉属物种83个个体进行了物种鉴别分辨率的评价.研究结果显示单个的叶绿体DNA片段(10.5％ ～26.3％)和核DNA片段(15.8％ ～26.3％)对云杉属物种鉴别的分辨率较低,组合的叶绿体DNA片段的分辨能力(15.8％ ～42.1％)虽然高于单个DNA片段,但分辨率最高的trnH-psbA+trnS-trnG和trnS-trnG+trn L-trnF两个组合也只能达到42.1％;组合的核DNA片段(26.3％ ～36.8％)一样对云杉属物种鉴别存在困难.但是叶绿体DNA片段和核DNA片段的组合可以明显提高对云杉属物种鉴定的分辨率,尤其是trnS-trnG+trn L-trnF+4Cl的组合片段,其分辨率可达到57.9％.因此在将来利用DNA条形码鉴别物种时,在常规DNA条形码片段不起作用的情况下,可采用这种叶绿体DNA片段和核DNA片段组合的方法来鉴定和区分植物物种.     

Quantification of Rice Blast Disease Progressions Through Taqman Real-Time PCR

Rice blast caused by Magnaporthe oryzae is a major disease in the paddy field and also a representative model system in the investigation of plant–microbe interactions. This study was undertaken to provide the quantitative evaluation method that specifically determines the amount of M. oryzae proliferation in planta. Real-time PCR was used as the detection strategy in combination with the primer pair and Taqman probe specific to MHP1, a unigene encoding HYDROPHOBIN that is indispensable for normal virulence expression. Based on the crossing point values from the PCR reactions containing a series of increasing concentration of cloned amplicon or fungal genomic DNA, correlation among the template’s copy number or its amount and amplification pattern was calculated. Reliability of this equation was further confirmed using the DNA samples from the rice leaves infected with compatible or incompatible strains of M. oryzae. The primer pair used in the Taqman real-time PCR reaction can recognize the existence of fungal DNA as low as 1 pg. In sum, our quantitative evaluation system is applicable and reliable in the blast diagnosis and also in the estimation of objective blast disease progression.     

Real-Time PCR Quantification of the Plant Growth Promoting Bacteria Herbaspirillum seropedicae Strain SmR1 in Maize Roots

The plant growth promoting bacteria Herbaspirillum seropedicae SmR1 is an endophytic diazotroph found in several economically important crops. Considering that methods to monitor the plant–bacteria interaction are required, our objective was to develop a real-time PCR method for quantification of PGPB H. seropedicae in the rhizosphere of maize seedlings. Primer pairs were designed, and their specificity was verified using DNA from 12 different bacterial species. Ten standard curves of qPCR assay using HERBAS1 primers and tenfold serial dilutions of H. seropedicae SmR1 DNA were performed, and PCR efficiency of 91 % and correlation coefficient of 0.99 were obtained. H. seropedicae SmR1 limit of detection was 10¹ copies (corresponding to 60.3 fg of bacterial DNA). qPCR assay using HERBAS1 was used to detect and quantify H. seropedicae strain SmR1 in inoculated maize roots, cultivated in vitro and in pots, harvested 1, 4, 7, and 10 days after inoculation. The estimated bacterial DNA copy number per gram of root was in the range 10⁷–10⁹ for plants grown in vitro and it was around 10⁶ for plants grown in pots. Primer pair HERBAS1 was able to quantify H. seropedicae SmR1, and this assay can be useful for monitoring plant–bacteria interaction.     

我国8种猛禽的DNA条形码技术研究

用DNA条形码通用引物扩增了我国8种猛禽(14只个体)的线粒体细胞色素c氧化酶亚基I(COI)基因,选取648 bp DNA条形码标准区域,结合99条猛禽条形码序列,探讨DNA条形码对猛禽的识别和鉴定.结果显示,75.6%的猛禽符合10×规则,且80.5%的猛禽均具有独特的DNA条形码可作为物种鉴定的依据,另有19.5%的猛禽(鵟属8种猛禽)由于种间差异太小,DNA条形码对它们的识别鉴定存在一定局限.     

Quantification of Mature MicroRNAs Using Pincer Probes and Real-Time PCR Amplification

The robust and reliable detection of small microRNAs (miRNAs) is important to understand the functional significance of miRNAs. Several methods can be used to quantify miRNAs. Selectively quantifying mature miRNAs among miRNA precursors, pri-miRNAs, and other miRNA-like sequences is challenging because of the short length of miRNAs. In this study, we developed a two-step miRNA quantification system based on pincer probe capture and real-time PCR amplification. The performance of the method was tested using synthetic mature miRNAs and clinical RNA samples. Results showed that the method demonstrated dynamic range of seven orders of magnitude and sensitivity of detection of hundreds of copies of miRNA molecules. The use of pincer probes allowed excellent discrimination of mature miRNAs from their precursors with five Cq (quantification cycle) values difference. The developed method also showed good discrimination of highly homologous family members with cross reaction less than 5%. The pincer probe-based approach is a potential alternative to currently used methods for mature miRNA quantification.     

Nitric Oxide Reductase-Targeted Real-Time PCR Quantification of Denitrifier Populations in Soil

The quantification of denitrifying bacteria is a component in the further understanding of denitrification processes in the environment. Real-time PCR primers were designed to target two segments of the denitrifier population (cnorB_P [Pseudomonas mandelii and closely related strains] and cnorB_B [Bosea, Bradyrhizobium, and Ensifer spp.]) in agricultural soils based on functional cnorB (nitric oxide reductase) gene sequences. Total population numbers were measured using 16S rRNA gene real-time PCR. Two soil microcosm experiments were conducted. Experiment 1 examined the response of the indigenous soil microbial population to the addition of 500 mg/kg glucose-C daily over 7 days in soil microcosms. Changes in the total population were correlated (r = 0.83) between 16S rRNA gene copy numbers and microbial biomass carbon estimates. Members of the cnorB_P population of denitrifiers showed typical r-strategy by being able to increase their proportion in the total population from starting levels of <0.1% to around 2.4% after a daily addition of 500 mg/kg glucose-C. The cnorB_B guild was not able to increase its relative percentage of the total population in response to the addition of glucose-C, instead increasing copy numbers only in proportion with the total population measured by 16S rRNA genes. Experiment 2 measured population dynamics in soil after the addition of various amounts of glucose-C (0 to 500 mg/kg) and incubation under denitrifying conditions. cnorB_P populations increased proportionally with the amount of glucose-C added (from 0 to 500 mg/kg). In soil microcosms, denitrification rates, respiration, and cnorB_P population densities increased significantly with increasing rates of glucose addition. cnorB_B guild densities did not increase significantly under denitrifying conditions in response to increasing C additions.     

Quantification of Bacterial Uropathogens in Preclinical Samples Using Real-Time PCR Assays

Uropathogenic Escherichia coli (UPEC) and Staphylococcus saprophyticus (S. saprophyticus) are responsible for the majority of community-acquired urinary tract infections (UTI). Agar plating, a gold standard for detection of bacterial uropathogens, is labor intensive, limited for distinguishing between environmental contaminants and pathogens, and fails to effectively detect mixed infections. A reliable method for specific and sensitive quantitative assessment of infections would allow cost-effective evaluation of large numbers of experimental samples. A methodology such as quantitative PCR (qPCR) addresses the limitations of agar plating. We developed and validated highly specific and sensitive qPCR assays to assist researchers in the evaluation of potential vaccines and interventions in preclinical models of UPEC and S. saprophyticus UTI. The developed UPEC PCR targeted a highly conserved region of the UPEC hemolysin D (hlyD) gene that reproducibly detected type strains CFT073 and J96 over a 9 log range with high precision. To quantify S. saprophyticus genomes, a separate qPCR assay targeting the Trk transport gene was developed with an 8 log range. Neither assay detected bacterial species predicted to be sample contaminants. Using our optimized workflow that includes automated steps, up to 200 urine or tissue samples can be processed in as few as 3 h. Additionally, sequence comparisons of our primers and probe to other UTI bacterial strains indicated the broad applicability of these assays. These optimized qPCR assays provide a cost-effective and time-saving method for quantification of bacterial burdens in tissues and body fluids to assess the effectiveness of candidate vaccines or interventions.     

Quantification of Tetracycline Resistance Genes in Feedlot Lagoons by Real-Time PCR

A new real-time PCR method is presented that detects and quantifies three tetracycline resistance (Tc^r) genes [tet(O), tet(W), and tet(Q)] in mixed microbial communities resident in feedlot lagoon wastewater. Tc^r gene real-time TaqMan primer-probe sets were developed and optimized to quantify the Tc^r genes present in seven different cattle feedlot lagoons, to validate the method, and to assess whether resistance gene concentrations correlate with free-tetracycline levels in lagoon waters. The method proved to be sensitive across a wide range of gene concentrations and provided consistent and reproducible results from complex lagoon water samples. The log₁₀ of the sum of the three resistance gene concentrations was correlated with free-tetracycline levels (r² = 0.50, P < 0.001; n = 18), with the geometric means of individual resistance concentrations ranging from 4- to 8.3-fold greater in lagoon samples with above-median tetracycline levels (>1.95 μg/liter by enzyme-linked immunosorbent assay techniques) than in below-median lagoon samples. Of the three Tc^r genes tested, tet(W) and tet(Q) were more commonly found in lagoon water samples. Successful development of this real-time PCR assay will permit other studies quantifying Tc^r gene numbers in environmental and other samples.     

Reexamination of the Species Assignment of Diacavolinia Pteropods Using DNA Barcoding

Thecosome pteropods (Mollusca, Gastropoda) are an ecologically important, diverse, and ubiquitous group of holoplanktonic animals that are the focus of intense research interest due to their external aragonite shell and vulnerability to ocean acidification. Characterizing the response of these animals to low pH and other environmental stressors has been hampered by continued uncertainty in their taxonomic identification. An example of this confusion in species assignment is found in the genus Diacavolinia. All members of this genus were originally indentified as a single species, Cavolinia longirostris, but over the past fifty years the taxonomy has been revisited multiple times; currently the genus comprises 22 different species. This study examines five species of Diacavolinia, including four sampled in the Northeast Atlantic (78 individuals) and one from the Eastern tropical North Pacific (15 individuals). Diacavolina were identified to species based on morphological characteristics according to the current taxonomy, photographed, and then used to determine the sequence of the “DNA barcoding” region of the cytochrome c oxidase subunit I (COI). Specimens from the Atlantic, despite distinct differences in shell morphology, showed polyphyly and a genetic divergence of <3% (K2P distance) whereas the Pacific and Atlantic samples were more distant (∼19%). Comparisons of Diacavolinia spp. with other Cavolinia spp. reveal larger distances (∼24%). These results indicate that specimens from the Atlantic comprise a single monophyletic species and suggest possible species-level divergence between Atlantic and Pacific populations. The findings support the maintenance of Diacavolinia as a separate genus, yet emphasize the inadequacy of our current taxonomic understanding of pteropods. They highlight the need for accurate species identifications to support estimates of biodiversity, range extent and natural exposure of these planktonic calcifiers to environmental variability; furthermore, the apparent variation of the pteropods shell may have implications for our understanding of the species’ sensitivity to ocean acidification.     

慈竹叶蝉类害虫DNA条形码分析

叶蝉类昆虫形态结构多样,在农林生态系统的物种多样性和植物保护工作中扮演着重要角色,但其物种的准确鉴定一直是农林植保工作中的难点。DNA条形码技术极大促进了农林生态系统物种的快速、准确鉴定。本研究经过连续2年的野外调查采集慈竹Bambusa emeiensis主要叶蝉种类,扩增了广泛分布于中国慈竹的12种主要叶蝉类害虫的线粒体基因COⅠ和16S rRNA序列片段,并进行了遗传距离、系统发育及矢量Klee-diagram图分析。结果显示:慈竹叶蝉昆虫COⅠ基因序列片段(590 bp)种内遗传距离为0.004,种间遗传距离为0.283;16S rRNA基因序列片段(463 bp)种内遗传距离为0.003,种间遗传距离为0.257;不同种间存在明显的条形码间隔。2个基因序列片段的分子系统发育分析结果与形态学研究谱系关系一致。Klee-diagram图分析结果和分子系统发育结果一致。上述结果表明,COⅠ和16S rRNA基因适用于慈竹叶蝉类昆虫的物种鉴定,可为竹林叶蝉类昆虫的准确快速鉴定提供参考方法。