AFLP标记技术的发展和完善

AFLP标记技术自诞生以来,由于集成高效性、高通量、无需知道序列信息等诸多优点而在分子生物学研究中得以广泛应用。近年来,研究人员对该技术进行了不断的优化和完善,并由之衍生出多种相关技术,不仅能区分纯合子和杂合子,还能够将感兴趣AFLP条带进行位点特异性标记的高效转化,从而有利于进行大规模单位点检测和基因克隆,检测技术更趋高效。重点评述近年来“常规”AFLP技术向更高通量、更加高效和信息完全AFLP技术的转化和发展,了解这些变革对高效利用AFLP技术实现研究目标具有重要的意义。     

天麻AFLP分析技术体系的建立

目的:建立一个适于天麻研究用的AFLP分析技术体系。方法:以11份天麻种质资源为试材,构建供试天麻的AFLP指纹图谱,同时对AFLP分析过程中DNA提取、酶切、连接、预扩增、引物筛选、选择性扩增、电泳和银染等多种因素进行分析。结果:AFLP分析体系要求DNA模板质量高,酶切连接可同时进行,37℃、9h效果较好,预扩增要求高质量DNA聚合酶,产物15倍稀释作为选择性扩增模板效果好,制胶前玻璃板的处理和银染时间的掌控对获得较好结果非常关键。P-GGA/M-GT引物构建的指纹图谱拥有可清晰辨认的扩增条带45条。结论:AFLP指纹技术具有稳定性高、重复性好等优点,可用于天麻DNA分析。     

AFLP和RAPD标记技术在栉孔扇贝遗传多样性研究中的应用比较

AFLP和RAPD标记技术是近年来发展最快的基于PCR基础上的两种DNA标记技术,本文比较了两种标记技术在我国栉孔扇贝群体遗传多样性研究中的应用。共筛选20个RAPD引物和7个AFLP引物组合,检测到AFLP标记的有效等位基因数和平均多态信息量稍低于RAPD标记,但AFLP标记在每单位分析中扩增到的野生和养殖群体的多态性条带数(23．8,24．8)分别高于RAPD标记(5．6,5．6),AFLP多态性检测效率显著高于RAPD标记。AFLP和RAPD两种标记技术所揭示的野生种群与养殖群体间的近交系数、遗传距离两项指标均表明,我国栉孔扇贝养殖群体和野生种群之间尚未出现明显的遗传分化。研究结果表明：RAPD和AFLP这两种标记技术均可用于栉孔扇贝遗传多样性的分析,其分析结果是一致的。     

猕猴桃AFLP分析体系的建立

从64对AFLP分析引物中随机选取了19对引物组合。经过跑小板的聚丙烯酰胺凝胶,银染显带AFLP条带,从中筛选出可做荧光的8对引物。再从中选取了扩增位点丰富,带型质量好,分辨率较高,条带信号强度一致性好,条带分布均匀,且条带较完整的4对引物：E-AAC＋M-CAC、E-AAG＋M-CTG、E-AAC＋M-CAG、EAAC＋M-CTA进行荧光跑带、读带。共在156个位点上扩增出条带,4对引物共扩增出多态性条带132条,多态性比例平均为84．62％,4对引物对10份猕猴桃材料的区分率达100％。说明该4对引物用于猕猴桃属植物的AFLP分析是可行的。     

基于AFLP技术的菜粉蝶遗传多样性初步分析

本研究选用陕西境内5个采样点采集的30个菜粉蝶个体,用AFLP技术分析了5个种群的遗传多样性。凝胶图经染色和分析发现总位点数为540个,其中504个为多态性位点,36个共有位点,具多态性的条带百分率为93.33%。结果表明:AFLP技术适合应用于菜粉蝶遗传多样性分析;荧光标记法在AFLP分析中具有较高的检测效率;南北坡5个地点种群的遗传多样性分化显示出山脉对菜粉蝶的隔绝作用。     

甜瓜遗传多样性的AFLP分析

利用AFLP(Amplified fragment length polymorphism)分子标记技术对48份甜瓜(Cucumis meloL.)材料遗传多样性和亲缘关系进行了研究.从64对引物中筛选出了10对进行选择性扩增,共扩增出423条带,其中多态性条带172条,多态率为40.66%.聚类分析将供试材料分成了两大类群,即厚皮甜瓜类群和薄皮甜瓜类群,并进一步将厚皮甜瓜类群分成了4个亚类,与甜瓜传统分类结果基本一致.     

21个枣品种（系）的AFLP指纹分析

采用AFLP技术,利用从30对引物中筛选出的10对多态性较好的引物,对21个枣品种(系)的基因组DNA进行了分析,共扩增出条带531条,其中多态性条带216条,多态性位点百分比为40.68%.采用UPGMA法,对AFLP扩增结果进行了聚类分析,将供试品种(系)分为6类,并得到了18个品种(系)的特征性AFLP标记,可为分子水平进行枣种质鉴定提供参考.     

斜带髭鲷高质量DNA提取及AFLP分析体系建立

目的:提取斜带髭鲷高质量基因组DNA并建立适用于AFLP分析的体系。方法:以斜带髭鲷(Hapalogenys nitens)为材料提取高质量基因组DNA,并进行AFLP扩增。对AFLP分析体系中几个关键环节(基因组双酶切、连接、预扩增及选择性扩增、变性聚丙烯酰胺凝胶电泳和银染)做了优化。结果:提取的斜带髭鲷全基因组DNA纯度高,无拖尾。采用9组选择性引物共检测出350个不同的扩增位点,其中多态位点为175个,多态性比例为49.58%。聚丙烯酰胺凝胶电泳图像染色均匀,条带清晰且无背景干扰。结论:该分析体系的建立为斜带髭鲷的群体遗传多态性、种质资源、遗传图谱、遗传育种等研究奠定基础。     

基于RAPD、ISSR和AFLP对西瓜枯萎病菌遗传多样性的评价

利用RAPD、ISSR和AFLP分子标记技术对50个西瓜枯萎病菌株进行了分析。结果表明,21个RAPD引物、21个ISSR引物和21对AFLP引物分别对供试菌株扩增出113、134和389条带,三种分子标记的遗传相似系数比较一致,均可揭示西瓜枯萎病菌的遗传变异特点。三种分子标记产生的聚类分析结果存在一定差异,其中RAPD类群与生理小种和地理来源之间均不存在明显关系;而AFLP和ISSR类群与生理小种之间存在一定相关性,与菌株的地理来源关系不明显.     

用差异显示反转录PCR银染技术研究植物基因表达的差异

通过调整差异显示反转录PCR(DDRT-PCR)中总RNA、锚定引物、随机引物、cDNA和dNTP等关键试剂的用量,优化了适用于银染检测的DDRT-PCR方法.PCR扩增产物经6%变性聚丙烯酰胺凝胶垂直电泳分离后,银染能检测到多而清晰的条带.泳道中的条带数最少为40个,最多达80个,平均为60个,条带大小分布在100～900 bp范围,灵敏度为5 pg/mm² .此方法操作简便快速,灵敏度高,重复性好.采用这个改良的方法,分析了拟南芥野生型和ast突变型基因表达的差异.从16 000个cDNA扩增产物条带中筛选出28个差异条带.二次PCR扩增后,进一步筛选出13个差异条带,其中7个是野生型特异表达的,6个是突变型特异表达的,为进一步认识ast突变表型的产生机制奠定了基础.     

Use of AFLP for differentiation of Metschnikowia pulcherrima strains for postharvest disease biological control

Metschnikowia pulcherrima occurs naturally on fruits, buds and floral parts of apple trees. Some strains are effective as biocontrol agents against postharvest decay of apples and other fruits. The usefulness of the amplified fragment length polymorphism (AFLP) technique was evaluated for the genetic analysis of 26 strains of M. pulcherrima, isolated from different sources in different geographical regions. With six AFLP primer pairs, 729 polymorphic bands were scored. The technique showed a high discriminatory power. Genetic relationships between strains were also estimated using AFLP. All the isolates from the carposphere of apple, previously tested as biocontrol agents, were grouped in a single cluster with a high bootstrap value (97), indicating robustness and reproducibility. AFLP patterns could clearly distinguish the different strains and research is in progress to use some putative specific bands for single tag sequence (STS) conversion to develop isolate-specific markers.     

Genetic differentiation of Helicoverpa armigera (Hübner) and H. assulta (Guenée) (Lepidoptera: Noctuidae) based on AFLP markers

Abstract Here we use amplified fragment length polymorphism (AFLP) to assess genetic differentiation of Helicoverpa armigera and H. assulta . The results indicated that both species-specific fingerprints and cluster analysis showed the ability of AFLP technique to discriminate the two sibling species; among a total 1963 AFLP markers amplified from nine primer combinations: 777 (39.6%) were H. armigera -specific, 602 (30.7%) were H. assulta -specific, and 584 (29.7%) were common bands. The mean number of H. armigera -specific bands was significantly more than that of H. assulta -specific bands for nine primer combinations ( P < 0.05); the intraspecific distance of H. armigera and H. assulta was 0.123 0 and 0.110 7 respectively, and the interspecific distance was 0.178 3. In addition, the percentage of polymorphic loci and estimated average heterozygosity were used to estimate genetic diversity of the two species. This study therefore demonstrates that AFLP analysis is a sensitive and reliable technique to study genetic differentiation and genetic relationships between species and provides sufficient molecular markers for future linkage map construction, location and eventual cloning of genes involved in traits differentiation.     

Assessment of genetic variation withinBrassica campestris cultivars using amplified fragment length polymorphism and random amplification of polymorphic DNA markers

Genetic relationships were evaluated among nine cultivars ofBrassica campestris by employing random amplification of polymorphic DNA (RAPD) and amplified fragment length polymorphism (AFLP) markers. RAPDs generated a total of 125 bands using 13 decamer primers (an average of 9.6 bands per assay) of which nearly 80% were polymorphic. The per cent polymorphism ranged from 60–100%. AFLP, on the other hand generated a total of 319 markers, an average of 64 bands per assay. Of these, 213 were polymorphic in nature (66.8%). AFLP methodology detected polymorphism more efficiently than RAPD approach due to a greater number of loci assayed per reaction. Cultivar-specific bands were identified, for some cultivars using RAPD, and for most cultivars with AFLP. Genetic similarity matrix, based on Jaccard’s index detected coefficients ranging from 0.42 to 0.73 for RAPD, and from 0.48 to 0.925 for AFLPs indicating a wide genetic base. Cluster analyses using data generated by both RAPD and AFLP markers, clearly separated the yellow seeded, self-compatible cultivars from the brown seeded, self-incompatible cultivars although AFLP markers were able to group the cultivars more accurately. The higher genetic variation detected by AFLP in comparison to RAPD was also reflected in the topography of the phenetic dendrograms obtained. These results have been discussed in light of other studies and the relative efficiency of the marker systems for germplasm evaluation.     

Evaluation of Genetic Variation in West Himalayan Yew and Its Associates Using RAPD and AFLP Markers

Genetic variation was studied in the yews of western Himalayas and its associates with the help of RAPD and AFLP markers. Polymorphic bands generated by RAPD and AFLP markers were 75% and 43%, respectively. Average genetic similarity values among the collections from west Himalayas expressed by Jaccard’s coefficient were 0.82 and 0.61 for RAPD and AFLP, respectively. Marker index (MI) and effective multiplex ratio (E) for AFLP were much more than RAPD thereby suggesting greater efficiency of AFLP in detecting genetic variation among the collections. Clustering pattern and the genetic distances among the west and east Himalayan yew revealed the possibility of occurrence of species level differentiation of the Himalayan yew.     

Modified AFLP technique for rapid genetic characterization in plants

The standard amplified fragment-length polymorphism (AFLP) technique was modified to develop a convenient and reliable technique for rapid genetic characterization of plants. Modifications included (i) using one restriction enzyme, one adapter molecule and primer, (ii) incorporating formamide to generate more intense and uniform bands and (iii) using agarose gel electrophoresis. Sea oats (Uniola paniculata L.), pickerel-weed (Pontederia cordata L.), Bermudagrass (Cynodon dactylon L.) and Penstemon heterophyllus Lindl. were used to determine the ability to generate adequate resolution power with both self- and cross-pollinated plant species including cultivars, ecotypes and individuals within populations. Reproducibility of bands was higher in all the AFLP experiments compared to random amplified polymorphic DNA (RAPD). Formamide with or without bovine serum albumin improved band intensities compared to dimethyl sulfoxide and the standard reaction mixture with no organic solvents. Comparison between RAPD and modified AFLP using sea-oats population samples proved that modified AFLP exhibits (i) a low number of faint bands with increased specificity of amplified bands, (ii) a significantly higher number of polymorphic loci per primer, (iii) less primer screening time, (iv) easy scoring associated with fewer faint bands and (v) greatly enhanced reproducibility. The technique described here can be applied with a high degree of accuracy for plant genetic characterization.     

Identification of molecular markers in soybean comparing RFLP,RAPD and AFLP DNA mapping techniques

Three different DNA mapping techniques—RFLP, RAPD and AFLP—were used on identical soybean germplasm to compare their ability to identify markers in the development of a genetic linkage map. Polymorphisms present in fourteen different soybean cultivars were demonstrated using all three techniques. AFLP, a novel PCR-based technique, was able to identify multiple polymorphic bands in a denaturing gel using 60 of 64 primer pairs tested. AFLP relies on primers designed in part on sequences for endonuclease restriction sites and on three selective nucleotides. The 60 diagnostic primer pairs tested for AFLP analysis each distinguished on average six polymorphic bands. Using specific primers designed for soybean fromEco RI andMse I restriction site sequences and three selective nucleotides, as many as 12 polymorphic bands per primer could be obtained with AFLP techniques. Only 35% of the RAPD reactions identified a polymorphic band using the same soybean cultivars, and in those positive reactions, typically only one or two polymorphic bands per gel were found. Identification of polymorphic bands using RFLP techniques was the most cumbersome, because Southern blotting and probe hybridization were required. Over 50% of the soybean RFLP probes examined failed to distinguish even a single polymorphic band, and the RFLP probes that did distinguish polymorphic bands seldom identified more than one polymorphic band. We conclude that, among the three techniques tested, AFLP is the most useful.     

Polymorphism in ornamental and common carp strains (Cyprinus carpio L.) as revealed by AFLP analysis and a new set of microsatellite markers

Forty-seven new microsatellite markers were generated and applied, together with the AFLP (Amplified Fragment Length Polymorphism) technique using two different enzyme combinations, to the genetic analysis of two carp species, Cyprinus carpio L. and Ctenopharyngodon idella. The extent of polymorphism and the genetic relationships between nine carp populations were studied. The incidence of microsatellites containing CA and CT motifs was estimated to be one every 17.4 and one every 126.3 kb, respectively, and their average allele numbers were four and five, respectively. Across populations, the average proportion of individuals that were heterozygous for microsatellite markers was 44.2% and the average allele number was 4.02. The EcoRI/TaqI combination generated more analyzable AFLP bands than the EcoRI/MseI pair, making the former preferable for the analysis of carp populations. The proportion of polymorphic AFLP bands within populations ranged from 6.7% in grass carp to 59.9% in Kohaku strain (Koi) of the ornamental carp. The fixation index (FST) for microsatellites in these populations was estimated to be 0.37, and for AFLP markers the value was 0.39. Genetic distance matrices derived from microsatellites and from two AFLP analyses were positively correlated. Grass carp showed fewer AFLP bands than other populations and was genotyped by only half of the microsatellite markers. These findings agree with genetic distance estimates in suggesting that the grass carp is phylogenetically quite remote from all the other populations examined.     

Fragment length distributions and collision probabilities for AFLP markers

AFLP is a DNA fingerprinting technique frequently used in plant and animal sciences. A drawback of the technique is the occurrence of multiple DNA fragments of the same length in a single AFLP lane, which we name a collision. In this article we quantify the problem. The well-known birthday problem plays a role. Calculation of collision probabilities requires a fragment length distribution (fld). We discuss three ways to estimate the fld: based on theoretical considerations, on in-silico determination using DNA sequence data from Arabidopsis thaliana, or on direct estimation from AFLP data. In the latter case we use a generalized linear model with monotone smoothing of the fragment length probabilities. Collision probabilities are calculated from two perspectives, assuming known fragment counts and assuming known band counts. We compare results for a number of fld's, ranging from uniform to highly skewed. The conclusion is that collisions occur often, with higher probabilities for higher numbers of bands, for more skewed distributions, and, to a lesser extent, for smaller scoring ranges. For a typical plant genome an AFLP with 19 bands is likely to contain the first collision. Practical implications of collisions are discussed. AFLP examples from lettuce and chicory are used for illustration.     

漆树品种的AFLP分析及评价(简报)

漆树(Toxicodendron vernicifluum(stokes)F.A.Barkley)隶属于漆树科(Anacardiaceae)漆树属(Tox- icodendron)的落叶乔木,是我国重要的特用经济林木。漆树栽培与生漆使用在我国已有几千年的历史,在长期栽培过程中形成了许多农家品种,它们具有一定的形态特点,适应一定的生长环境,并具有产漆量高、生漆品质好等特性。     

Patterns of AFLP variation in a core subset of cultivated hexaploid oat germplasm

Many core collections have been developed from large collections of crop germplasm, but most of these have not been characterized, particularly using molecular techniques, for germplasm management and utilization. We have attempted to characterize a structured sample representing a world collection of 11,622 cultivated hexaploid oat accessions in the hope of understanding the genetic structure of the world collection. The amplified fragment length polymorphism (AFLP) technique was applied to screen 670 accessions representing 79 countries and one group of uncertain origin. For each accession, 170 AFLP polymorphic bands detected by five AFLP primer pairs were scored. Analyses of the AFLP data showed the effectiveness of the stratified sampling applied in capturing country-wise AFLP variation. The frequencies of polymorphic bands ranged from 0.11 to 0.99, with an average of 0.72. The majority (89.9%) of the AFLP variation resided within accessions of each country, and only 6.2% of the AFLP differences existed among accessions of major geographic regions. Accessions from the Mediterranean region were the most distinct, while those from Russia and the USA were the most diverse. The two distinct groups that were observed were separated largely on the basis of common oat and red oat. Red oat was genetically more diverse than its common and hull-less counterparts, and hull-less oat was more related to common oat than red oat. Landrace and non-landrace accessions displayed similar AFLP variation patterns. These patterns are significant for understanding the domestication of cultivated oat and are useful in classifying the intraspecific diversity of oat germplasm, developing specific core subsets of the oat collection, and exploring new sources of genes for oat improvement.