AFLP在橡胶树优异种质研究中的应用

采用377DNA测序仪（P.E.Corp.)用AFLP技术对25种分别具有高产／低产、抗白粉病／感白粉病、抗寒／不抗寒、死皮／不死皮性状的橡胶树（Hevea brasiliensis Mull.Ary)无性系（其中Wickham种质15种,Amazon野生橡胶树种质10种）进行了指纹图谱分析,从64对引物组合中选出2对引物组合构建了所有被研究种质的指纹图谱。2对引物共扩增出518条带,多态性比率超过98．6％。遗传多样性分析表明,橡胶树种质间遗传距离为0．25－0．81,RRIM600种质内遗传距离为0．07－0．17。通过基因分型分析获得一条大小为320bp的抗白粉病种质特有的片段。根据以上的AFLP数据进行了聚类分析,结果表明所有被研究种质几乎是依次聚成一个大类。     

111份大薯种质资源遗传多样性的AFLP分析

采用AFLP分子标记方法对收集于6省不同地区的111份大薯种质资源进行遗传多样性分析。筛选到的8个AFLP引物组合扩增到1291个位点,其中1286个是多态性位点。利用多态性信息含量(PIC)、标记指数(MI)和解析强度(RP)分析不同引物组合的标记效率,获得引物的PIC平均值为0.22,MI平均值为35.67,RP平均值为50.50,表明引物扩增位点的高多态性和对大薯种质资源具有强辨别能力,其中引物E-AAC/CAG-M(PIC 0.24、MI 38.56、RP 56.35)具有较高的标记效率。111份大薯种质的遗传相似系数(GS)在0.30~0.82之间,平均为0.58,表明大薯种质资源的遗传相似性较低。采用UPGMA对大薯种质进行聚类分析,遗传相似系数在0.54时,111份材料被划分为4个类群和3个单独的分支,不同地区来源的大薯材料在聚类图中没有明显界限。     

Evaluation of genetic diversity and germ plasm identification of 44 species, clones, and cultivars from 5 sections of the genusPopulus based on amplified fragment length polymorphism analysis

The genusPopulus L. (Salicaceae) can be divided into 5 sections with distribution throughout the world. Accurate identification ofPopulus clones and species is essential for effective selection, breeding, and management of genetic resources. In this study, amplified fragment length polymorphism (AFLP) analysis, which was reported as a reliable technique with high efficiency in detecting polymorphism, was used to conduct analyses of genetic diversity and variety identification of 44 species, clones, and cultivars ofPopulus that represent a wide range of breeding and commercially available germplasms. Cluster analysis of the 44 samples was carried out, and a dendrogram of genetic relatedness was developed on the basis of the AFLP data. DNA fingerprints of the 44 samples were developed from 12 selected bands amplified with 2 primer combinations (M-CAG/E-TA and M-CAG/E-TC). Each sample has its unique fingerprint pattern and can be distinguished from the others. Furthermore, 1 specific AFLP band of the cultivarPopulus canadensis cl. Guariento coming from fragments amplified by primer combination M-CTC/E-AG was successfully converted into a sequence-characterized amplified region (SCAR) marker. The results indicate that AFLP analysis should be considered as the preferred technique for the study of polymorphism inPopulus. This research is the first report concerning the use of AFLP analysis in genetic diversity and germplasm identification among all sections ofPopulus.     

Genetic relationships of Aglaonema species and cultivars inferred from AFLP markers

BACKGROUND AND AIMS: Aglaonema is an important ornamental foliage plant genus, but genetic relationships among its species and cultivars have not been reported. This study analysed genetic relatedness of 54 cultivars derived from nine species using amplified fragment length polymorphism (AFLP) markers. METHODS: Initially, 48 EcoRI + 2/MseI + 3 primer set combinations were screened, from which six primer sets that showed clear scoreable and highly polymorphic fragments were selected and used for AFLP reactions. AFLP fragments were scored and entered into a binary data matrix as discrete variables. Jaccard's coefficient of similarity was calculated for all pair-wise comparisons among the 54 cultivars, and a dendrogram was constructed by the unweighted pair-group method using the arithmetic average (UPGMA). KEY RESULTS: The number of AFLP fragments generated per primer set ranged from 59 to 112 with fragment sizes varying from 50 to 565 bp. A total of 449 AFLP fragments was detected, of which 314 were polymorphic (70 %). All cultivars were clearly differentiated by their AFLP fingerprints. The 54 cultivars were divided into seven clusters; cultivars within each cluster generally share similar morphological characteristics. Cluster I contains 35 cultivars, most of them are interspecific hybrids developed mainly from A. commutatum, A. crispum or A. nitidum. However, Jaccard's similarity coefficients among these hybrids are 0.84 or higher, suggesting that these popular hybrid cultivars are genetically much closer than previously thought. This genetic similarity may imply that A. nitidum and A. crispum are likely progenitors of A. commutatum. CONCLUSIONS: Results of this study demonstrate the efficiency and ease of using AFLP markers for investigating genetic relationships of ornamental foliage plants, a group usually propagated vegetatively. The AFLP markers developed will help future Aglaonema cultivar identification, germplasm conservation and new cultivar development.     

Chromosomal location of AFLP markers in common wheat utilizing nulli-tetrasomic stocks.

Amplified fragment length polymorphism (AFLP) markers with a total of 256 EcoRI + ANN - MseI + CNN primer combinations were investigated employing the common wheat cultivar Triticum aestivum 'Chinese Spring.' On average, 103 fragments per primer combination were amplified, ranging from a maximum of 226 fragments to a minimum of 18 fragments. The primer combinations E + AAA - M + CNN and E + ATT - M + CNN produced very few distinct fragments. By using 15 randomly chosen EcoRI + ANN - MseI + CNN primer combinations, 928 AFLP markers were allocated to wheat chromosomes, of which 131 were assigned to specific chromosome arms. These AFLP markers were locus-specific and randomly distributed on the different chromosomes. In addition, 6 and 41 AFLP markers were simultaneously absent in two nulli-tetrasomics (NTs) of both homoeologous and non-homoeologous groups, respectively, whereas additional fragments were detected in N1BT1A, N5AT5D, and N6BT6A lines.     

吴茱萸的AFLP指纹图谱的初步研究

首次报道中草药植物吴茱萸基因组DNA指纹图谱的研究。吴茱萸是贵州省内经济价值极高的中草药之一,采用扩增片段长度多态性（AFLP）技术来分析来自不同地区的石虎、疏毛、大花吴茱萸3个品种的DNA指纹图谱,从18对引物中筛选出3对引物对19份材料的DNA检测,共得到93条带,其中多态性片段57条（平均61.3%）。3对引物组合从DNA指纹图谱上将19份材料完全区分开,结果表明AFLP技术是鉴别吴茱萸相近品种的有效方法,是形态学鉴定方法的有益补充;UPGMA方法聚类分析显示19份种质材料间的相似系数为0.235～0.941,表明吴茱萸种质间的遗传多样性丰富;余庆地区种植基地的石虎和疏毛样本聚为一类,提示人工栽培影响到吴茱萸的遗传特性。     

The development of a PCR-based marker linked to resistance to the blackcurrant gall mite (Cecidophyopsis ribis Acari: Eriophyidae)

Gall mite (Cecidophyopsis ribis) is the most serious pest of blackcurrant (Ribes nigrum L.), causing the damaging condition known as 'big bud' and also transmitting blackcurrant reversion virus (BRV) within and between plantations. The identification of resistant germplasm is at present a time-consuming and expensive process, dependent on field infestation plots. Resistance based on gene Ce introgressed from gooseberry has been used in UK breeding programmes for blackcurrant. Using a bulked segregant analysis, 90 AFLP primer combinations were screened and a linkage map constructed around the resistance locus controlled by Ce. Sixteen of the primer combinations produced a fragment in the resistant bulked progeny and the gall mite-resistant parent, but not in the susceptible bulked progeny and parent; subsequent testing on individual progeny identified an AFLP fragment closely linked to gall mite resistance. This fragment, designated E41M88-280, was converted to a PCR-based marker based on sequence-specific primers, amplifying only in resistant individuals. Validation of this marker across a range of susceptible and resistant blackcurrant germplasm with different genetic backgrounds confirmed its reliability in the identification of mite-resistant germplasm containing gene Ce. The conversion of an AFLP fragment to a sequence-based PCR marker simplifies its application and therefore increases its utility for selection of mite-resistant germplasm in high-throughput breeding programmes for blackcurrant.     

糙皮侧耳(Pleurotus ostreatus)的AFLP指纹图谱分析

在对糙皮侧耳(Pleurotus ostreatus)的AFLP分析条件进行优化的基础上,利用该技术建立了14株产自不同地区的糙皮侧耳：DNA指纹图谱,并进行了数据分析。结果表明,在合成的14条引物的不同组合中,引物对E-3／M-3可以产生较多的DNA多态片段,E-AGC／M-CAT引物对的扩增效果最好,共获得184条DNA扩增带,其中多态性条带i101条,占54．89％。利用UPGMA法对所获数据进行聚类分析,计算得到糙皮侧耳菌株之间的遗传距离,发现不同品种间遗传距离差异较大,从0．192到0．754,说明糙皮侧耳的遗传多样性比较丰富。绘制的指纹分析树状图表明,14个糙皮侧耳菌株被分为6个组群,其中P17和杂3的相似性系数最高,达到了81．2％,而侧5与其他菌株的亲缘关系相对最远。     

Genetic variation among natural isolates of the ectomycorrhizal hypogenous fungus,Rhizopogon roseolus from Japanese pine forests inferred using AFLP markers

Genetic variation among 45 Rhizopogon roseolus isolates from 21 different regions of Japan were inferred using amplified fragment length polymorphism (AFLP) markers. Using three primer pair combinations, AFLP analysis reproducibly produced a total of 223 DNA fragments, 74.4% of which were polymorphic. Pairwise dissimilarity of AFLP patterns between isolates ranged from 0.043 to 0.228. Cluster analysis and principal coordinate analysis of AFLP data generally showed four major clusters from geographically distinct areas. The findings suggested that the Japanese populations of R. roseolus from different geographical regions can be distinguished based on AFLP characters.     

Genetic diversity in tetraploid switchgrass revealed by AFLP marker polymorphisms

Switchgrass (Panicum virgatum) is a perennial warm-season grass native to North America that has been identified as a dedicated cellulosic biofuel crop. We quantified genetic diversity in tetraploid switchgrass germplasm collected at Oklahoma State University and characterized genetic relatedness among the collections from distinct regions. Fifty-six tetraploid accessions, including seven upland and 49 lowland genotypes from throughout the US, were examined. The amplified fragment length polymorphism (AFLP) procedure was utilized to generate DNA profiling patterns that were scored visually. Sixteen selective AFLP primer combinations were used to amplify 452 polymorphic bands. The accessions' genetic similarity coefficients, UPGMA (unweighted pair-group method with arithmetic averaging) cluster analysis and principle coordinate analysis, were performed. The upland and lowland accessions clustered according to ecotypes, with one exception (TN104). Genetic similarity coefficients among the accessions ranged from 0.73 to 0.95. Analysis of molecular variance (AMOVA) was performed, showing significant differences between the upland and lowland genotypes. The trnL marker confirmed that TN104 was a lowland genotype, but the trnL marker identification of upland and lowland genotypes was not consistent with the AFLP analysis in two germplasms (Miami and AR4).     

Conversion of AFLP markers to sequence-specific PCR markers in barley and wheat

 Conversion of amplified fragment length polymorphisms (AFLPs) to sequence-specific PCR primers would be useful for many genetic-linkage applications. We examined 21 wheat nullitetrasomic stocks and five wheat-barley addition lines using 12 and 14 AFLP primer combinations, respectively. On average, 36.8% of the scored AFLP fragments in the wheat nullitetrasomic stocks and 22.3% in the wheat-barley addition lines could be mapped to specific chromosomes, providing approximately 461 chromosome-specific AFLP markers in the wheat nullitetrasomic stocks and 174 in the wheat-barley addition lines. Ten AFLP fragments specific to barley chromosomes and 16 AFLP fragments specific to wheat 3BS and 4BS chromosome arms were isolated from the polyacrylamide gels, re-amplified, cloned and sequenced. Primer sets were designed from these sequences. Amplification of wheat and barley genomic DNA using the barley derived primers revealed that three primer sets amplified DNA from the expected chromosome, five amplified fragments from all barley chromosomes but not from wheat, one amplified a similar-sized fragment from multiple barley chromosomes and from wheat, and one gave no amplification. Amplification of wheat genomic DNA using the wheat-derived primer sets revealed that three primer sets amplified a fragment from the expected chromosome, 11 primer sets amplified a similar-sized fragment from multiple chromosomes, and two gave no amplification. These experiments indicate that polymorphisms identified by AFLP are often not transferable to more sequence-specific PCR applications. Received: 30 June 1998 / Accepted: 26 October 1998     

Using morphological diagnosis and molecular markers to assess the clonal fidelity of micropropagated Echinacea purpurea regenerants

Both morphological characteristics and amplified fragment length polymorphism (AFLP) markers were used to validate the genetic fidelity of 1 080 field-grown Echinacea purpurea plants regenerated from leaf explants of donor T5-9. Morphological diagnosis revealed that 1 067 out of 1 080 regenerants were normal, while 13 regenerants were aberrant. AFLP analysis was further performed to assess DNA variations among donor, 43 sampled normal regenerants and all 13 aberrant regenerants. Seven primer combinations generated 471 fragments among donor and normal regenerants, of which 9 fragments were polymorphic. The same primer pairs generated 484 fragments for aberrant regenerants, of which 417 fragments were polymorphic. UPGMA clustering indicated that 42 normal regenerants and donor fell into same cluster at similarity scale of > 0.99, while all 13 aberrant regenerants and one morphologically normal regenerant comprised the other clusters. AFLP analysis indicated that these 14 regenerants are off-types.     

Effectiveness of AFLPs and Retrotransposon-Based Markers for the Identification of Portuguese Grapevine Cultivars and Clones

Grapevine germplasm, including 38 of the main Portuguese cultivars and three foreign cultivars, Pinot Noir, Pinot Blanc and Chasselas, used as a reference, and 37 true-to-type clones from the Alvarinho, Arinto, Loureiro, Moscatel Galego Branco, Trajadura and Vinh?o cultivars were studied using AFLP and three retrotransposon-based molecular techniques, IRAP, REMAP and SSAP. To study the retrotransposon-based polymorphisms, 18 primers based on the LTR sequences of Tvv1, Gret1 and Vine-1 were used. In the analysis of 41 cultivars, 517 IRAP, REMAP, AFLP and SSAP fragments were obtained, 83% of which were polymorphic. For IRAP, only the Tvv1Fa primer amplified DNA fragments. In the REMAP analysis, the Tvv1Fa-Ms14 primer combination only produced polymorphic bands, and the Vine-1 primers produced mainly ISSR fragments. The highest number of polymorphic fragments was found for AFLP. Both AFLP and SSAP showed a greater capacity for identifying clones, resulting in 15 and 9 clones identified, respectively. Together, all of the techniques allowed for the identification of 54% of the studied clones, which is an important step in solving one of the challenges that viticulture currently faces.     

西瓜核心种质的AFLP指纹图谱和SCAR标记

西瓜(Citrullus lanatus (Thunb.) Mansf.)种质资源的鉴定与评价是对其有效利用的基础.以往的研究表明, 西瓜是一种遗传资源特别狭窄的作物,在用同工酶、RAPD及SSR技术对西瓜种质资源进行鉴定时,发现很难将品种完全区分开来.本研究利用高效可靠的AFLP技术,对30个西瓜核心种质材料进行了遗传分析,最终建立了这30个材料的DNA指纹图谱.在该图谱中,每个材料均有其独特的"指纹",材料之间可以相互区分开来.为了进一步利用AFLP分子标记,将重要抗病种质材料"PI296341"的AFLP特异带转化成了生产上可以直接利用的SCAR标记.     

Analysis of Genetic Diversity in Pongamia [Pongamia pinnata (L) Pierrre] using AFLP Markers

In recent years, Pongamia has been considered as important renewable source of biodiesel, however not much molecular information is available in this species. Molecular characterization of this legume tree will enhance our understanding in improving the optimal yields of oil through breeding and enable us to meet the future demands for biodiesel. To assess the molecular genetic diversity in 46 Pongamia pinnata accessions collected from six different states of India, amplified fragment length polymorphism (AFLP) marker system was employed. Five AFLP primer combinations produced 520 discernible fragments, of which 502 (96.5%) were polymorphic. AFLP primer informativeness was estimated evaluating four parameters namely polymorphism information content (PIC), effective multiplex ratio (EMR), marker index (MI) and resolving power (RP). In total, 51 unique fragments were detected of which 19 unique fragments were observed with primer combination E-ACG / M-CTA. Although neighbour joining (NJ) method did not group accessions strictly according to their region of collection, a good level of genetic diversity was observed in examined germplasm. However, accessions collected from Karnataka showed comparatively higher diversity than accessions from other states. The diverse accessions identified in this study may be useful in Pongamia pinnata improvement to meet the future demands of biodiesel.     

AFLP 引物组合数量对准确研究竹子系统关系的影响

利用AFLP技术对26个竹子种类进行了多样性分析, 以探索引物组合数量对准确研究竹子类群系统关系的影响。实验共随机选取10对AFLP引物, 并对所得10组AFLP标记数据随机组合后进行Nei氏遗传距离/UPGMA聚类分析。每对AFLP引物 扩增数据为一组, 随着用于聚类统计的AFLP标记数据随机组合数量的增加, 26个竹子种类的聚类关系趋向一致。这提示我们,在系统学研究中, 足够数量的引物组合是获得供试材料间准确聚类关系的基础, 应采用对各AFLP引物组合数据随机累加后进行聚类分析的方法, 以聚类关系为标准来确定用于分析供试品种的最少引物组合数量。     

AFLP assessment of genetic diversity among Indian Mucuna accessions

Amplified fragment length polymorphism (AFLP) marker was used to assess diversity in germplasm collection of Mucuna species which has gained tremendous attention in the recent past due to its promising nutritional, agronomic and medicinal attributes. Twenty five accessions comprising five species, collected from seven states of India were evaluated with twelve AFLP primer combinations that generated a total of 1,612 fragments with an average of 134 fragments per primer combination. The values of polymorphic information content (PIC), marker index (MI) and the resolving power (Rp) demonstrated the utility of the primer combinations used in the present study for discriminating the Mucuna accessions. UPGMA and Principal coordinate analysis (PCoA) of the genotypic data revealed clustering of accessions as per phenetic and genetic relationships. The Jaccard’s similarity coefficient values suggested good variability among the M. pruriens accessions indicating their utility in breeding programs. Molecular diversity presented in this study combined with the datasets on other morphological/agronomic traits will be highly useful for selecting appropriate accessions for plant improvement through conventional as well as molecular breeding approaches and for evolving suitable conservation strategies.     

羊草种质基因组DNA的AFLP多态性研究

羊草是禾本科牧草之王 ,在当前我国西部生态建设和草原畜牧业发展中发挥着重要作用。用AFLP方法对2 7份我国不同地区分布的羊草 (Leymuschinensis (Trin .)Tzvel)材料进行了基因组DNA多态性分析 ,8对AFLP引物组合在 2 7个不同羊草基因型中共扩增出 5 37条带 ,产生出的DNA片段大小分布在 75bp - 5 30bp之间。其中单态性带 89条 ,占 16 .6 % ,多态性带 32 9条 ,占 6 1.3%。平均每对引物组合扩增的DNA带数为 6 6 .13,总的多态性比率为 78.84%。AFLP多态信息含量PIC值分布于 0 .0 - 0 .5之间 ,平均PIC值为 0 .2 16 ,出现的PIC最大值 (0 .5 )约占AFLP标记的 8.5 % ,说明羊草基因组DNA的多态性比较丰富。以 5 37个AFLP标记为原始数据 ,根据Nei和Li的方法对 2 7份羊草材料进行遗传变异和聚类分析的结果表明 :羊草种内有高频率的遗传变异发生 ,且与地理分布和生态环境密切相关 ;2 7份羊草不同基因型被划分为四大类群 ,不同类群相互间的遗传距离相对较大 ,在树状图中表现为较远的亲缘关系。对羊草种内遗传变异发生的原因和品种的形成进行了初步讨论。     

三倍体白杨杂种无性系指纹图谱的构建

目的:构建三倍体白杨杂种无性系指纹图谱,鉴定三倍体白杨杂种无性系。方法:分离纯化三倍体白杨杂种DNA模板,采用扩增片段长度多态性(AFLP)分子标记技术构建三倍体白杨杂种无性系指纹图谱。结果:从64对引物组合中筛选出M-CTA/E-CAG、M-CAC/E-CCA、M-ACT/E-CTC和M-CTT/E-CTG等4对多态性较高的引物组合,并应用该引物组合对21个三倍体白杨杂种无性系进行了AFLP分析,构建了21个三倍体白杨杂种无性系指纹图谱。结论:构建无性系指纹图谱是鉴别三倍体白杨杂种无性系的有效方法,能够有效鉴别21个三倍体白杨杂种无性系。本研究为品种鉴定及新品种权保护奠定了基础。     

转基因抗虫棉SSR和AFLP遗传变异研究

利用SSR和AFLP两种分子标记技术,分析了52份转基因抗虫棉品种（系）的遗传多样性。结果表明：在61对SSR引物中,有4对引物在供试材料中表现出多态性,共扩增出102个标记,其中多态性标记25个,多态性百分率为24．51％,每对引物的扩增带数变化在17～30之间;在100对AFLP引物中,有9对引物在供试材料中产生多态性,共扩增出618个标记,多态性标记33个,占总数的5．34％,每对引物组合扩增的标记数分布于47～81之间。成对品种的欧式距离变化在2．00～5．57之间,平均值为4．21,单一品种欧氏距离的平均值分布在3．73～4．75之间,表明不同品种之间遗传差异不大。基于SSRs和AFLPs多态性数据的聚类分析,可以将供试材料划分为3个类群（SAGs）,但类群划分与品种地理来源不十分吻合。