红掌品种亲缘关系SRAP分析

利用相关序列扩增多态性（SRAP）分子标记,从100对引物组合中筛选出 26对多态性高、条带清晰的SRAP引物,对33个红掌品种进行遗传多样性和亲缘关系分析。结果如下：（1）26对引物共扩增出366条条带,其中有314条多态性条带,多态性比率为85.79%。引物组合产生的条带数在9～23之间,平均每对引物组合扩增出14.1条和12.1条多态性条带。（2）根据SRAP扩增结果,利用UPGMA法进行聚类分析,33份材料的遗传相似系数在0.55～0.94之间,在遗传相似系数0.786处可将33个红掌品种分为5个类群。结果表明,供试品种遗传多样性丰富,本研究为品种鉴定和杂交育种提供了参考信息。     

Optimization of primer screening for evaluation of genetic relationship in rose cultivars

Optimization of primer screening for evaluation of genetic relationship in 34 cultivars of rose through random amplified polymorphic DNA (RAPD) markers was investigated. Four series of decamer primers were used for screening and optimization of RAPD analysis between which A and N series performed good amplification of fragments as compared with other series. The primers OPN-07 and OPN-15 produced maximum number of DNA fragments in Rosa hybrida cv. Anuraag. Some primer either did not produce amplification or produced very poor amplification. Further, ten selected primers were used for genetic analysis of 34 rose cultivars. The primer OPN-15 amplified 21 fragments in all cultivars tested. A total of 162 distinct DNA fragments (bands) ranging from 100 to 3400 base pairs were amplified by using 10 selected random primers. The cluster analysis indicated that these rose cultivars formed nine clusters.     

Monitoring of cultivar identity in tissue culture-derived date palms using RAPD and AFLP analysis

In the present study, two polymerase chain reaction (PCR)-based methods namely, randomly amplified polymophic DNA (RAPD) and amplification fragment length polymorphism (AFLP) were employed to assess genetic variations, which may appeared, in tissue culture-derived date palm (Phoenix dactylifera) offshoots. Analysis of RAPD banding patterns generated by PCR amplification using 37 random primers gave no evidences for somaclonal variations and the percentage of polymorphic bands in a total of 259 scored bands was zero. Meanwhile, analysis of AFLP banding patterns generated using 13 primer combinations pointed to minor genetic variations in the AFLP banding patterns. The percentage of genetic variations (polymorphism) in tissue culture-derived date palm offshoots belonging to cultivars Sakkoty, Gandila and Bertamoda was 2.6, 0.79 and 1 %, respectively, as revealed by AFLP analysis. The low percentage of genetic variations confirms the genetic stability of tissue culture-derived dry date palm cultivars.     

Utilization of a set of high-polymorphism DAMD markers for genetic analysis of a cucumber germplasm collection

Eighteen minisatellite core sequences, derived from rice, human and phage M13, were used as primers in a PCR technique, known as directed amplification of minisatellite-region DNA (DAMD), to genotype 19 cucumber (Cucumis sativus L.) accessions from a wide collection. All the primers amplified polymorphic bands across the accessions. Out of 165 bands scored, 129 were polymorphic with 78.2% polymorphism. The average of polymorphism information content of the primers was 0.844, revealing a high discrimination power in cucumber. Based on Jaccard’s similarity indices and matrix generated by the DAMD markers, a dendrogram was constructed using the unweighted pair group method using arithmetic averages and allowed for separation of the 19 accessions into four distinct groups which demonstrated genetic relationship among the different types of germplasms. Sequencing of six polymorphic amplicons resulted in the identification of only one minisatellite locus, which indicated that variation in minisatellite number was not always the factor underlying DAMD polymorphism.     

Conversion of AFLP markers to sequence-specific markers for closely related lines in rice by use of the rice genome sequence

DNA polymorphism between two major japonica rice cultivars, Nipponbare and Koshihikari, was identified by AFLP. Eighty-four polymorphic AFLP markers were obtained by analysis with 360 combinations of primer pairs. Nucleotide sequences of 73 markers, 29 from Nipponbare and 44 from Koshihikari, were determined, and 46 AFLP markers could be assigned to rice chromosomes based on sequence homology to the rice genome sequence. Specific primers were designed for amplification of the regions covering the AFLP markers and the flanking sequences. Out of the 46 primer pairs, 44 amplified single DNA fragments, six of which showed different sizes between Nipponbare and Koshihikari, yielding codominant SCAR markers. Eight primer pairs amplified only Nipponbare sequences, providing dominant SCAR markers. DNA fragments amplified by 13 primer pairs showed polymorphism by CAPS, and polymorphism of those amplified by 13 other primer pairs were detected by PCR-RF-SSCP (PRS). Nucleotide sequences of the other four DNA fragments were determined in Koshihikari, but no difference was found between Koshihikari and Nipponbare. In total, 40 sequence-specific markers for the combination of Nipponbare and Koshihikari were produced. All the SNPs identified by AFLP were detectable by CAPS and PRS. The same method was applicable to a combination of Kokoromachi and Tohoku 168, and 23 polymorphic markers were identified using these two rice cultivars. The procedure of conversion of AFLP-markers to the sequence-specific markers used in this study enables efficient sequence-specific marker production for closely related cultivars.     

Qualitative and quantitative characterization of RAPD variation among snap bean (Phaseolus vulgaris) genotypes

Ten snap bean (Phaseolus vulgaris) genotypes were screened for polymorphism with 400 RAPD (random amplified polymorphic DNA) primers. Polymorphic RAPDs were scored and classified into three categories based on ethidium bromide staining intensity. An average of 5.19 RAPD bands were scored per primer for the 364 primers that gave scorable amplification products. An average of 2.15 polymorphic RAPDs were detected per primer. The results show that primer screening may reduce the number of RAPD reactions required for the analysis of genetic relationships among snap-bean genotypes by over 60%. Based on the analysis of the distribution of RAPD amplification, the same number of polymorphic RAPDs were amplified from different genotypes for all RAPD band intensity levels. A comparison of RAPD band amplification frequency among genotypes for the three categories of bands classified by amplification strength revealed a measurable difference in the frequencies of RAPDs classified as faint (weakly amplifying) compared to RAPD bands classified as bold (strongly amplifying) indicating a possible scoring error due to the underscoring of faint bands. Correlation analysis showed that RAPD bands amplified by the same primer are not more closely correlated then RAPD bands amplified by different primers but are more highly correlated then expected by chance. Pairwise comparisons of RAPD bands indicate that the distribution of RAPD amplification among genotypes will be a useful criterion for establishing RAPD band identity. For the average pairwise comparison of genotypes, 50% of primers tested and 15.8% of all scored RAPDs detected polymorphism. Based on RAPD data Nei's average gene diversity at a locus was 0.158 based on all scorable RAPD bands and 0.388 if only polymorphic RAPD loci were considered. RAPD-derived 1 relationships among genotypes are reported for the ten genotypes included in this study. The data presented here demonstrate that many informative, polymorphic RAPDs can be found among snap bean cultivars. These RAPDs may be useful for the unique identification of bean varieties, the organization of bean germplasm, and applications of molecular markers to bean breeding.     

Genetic diversity among cultivars of spring barley revealed by random amplified polymorphic DNA (RAPD)

RAPD (random amplified polymorphic DNA) polymorphism was studied in 23 malting and non-malting spring barley cultivars included in the official list of Polish cultivated varieties. Twenty-four 10-mer primers were tested in each cultivar, giving altogether 149 amplification products, 45% of which were polymorphic. The number of polymorphic bands revealed by one primer ranged from 1 to 6, with an average of 2.8. Genetic distance for all pairs of compared varieties was estimated and a dendrogram was constructed using unweighted pair group method of arithmetic means. The genetic distance between cultivars ranged from 0.11 for cvs. Apex and Bryl to 0.62 for cvs. Orthega and Madonna. Of the seven malting cultivars only two (Brenda and Stratus) formed one group at D = 0.25. The genetic distance between cvs. Brenda and Scarlett, especially recommended for brewery, was equal to 0.34. The detected polymorphism appeared to be sufficient for assessing genetic distances between cultivars, but on the basis of this polymorphism groups of malting and non-malting cultivars were not clearly distinguished.     

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.     

29个香蕉基因型遗传多样性的SRAP分析

采用SRAP分子标记技术对29个香蕉品种(系)的多样性进行研究,结果显示,64对SRAP引物中筛选出25个多态性较高的引物组合,共扩增出324条条带;UPGAM聚类图显示所有供试的29个香蕉品种(系)可分为2个类群且与基因型相一致;实验结果与形态、农艺性状标记分类基本一致。研究表明,SRAP技术可有效运用于香蕉基因型的遗传和育种研究。     

牛鞭草品种EST-SSR指纹图谱构建及遗传多样性分析

为探讨牛鞭草(Hemarthria spp.)品种间的遗传多样性,从86对EST-SSR引物中筛选出8对引物对牛鞭草属6个品种进行指纹图谱的构建及遗传多样性分析。结果表明,8对EST-SSR引物对牛鞭草属6个品种共扩增出193条清晰条带,多态性条带161条,多态性比例为83.4%。每条引物的多态信息含量(PIC)为0.480~0.695,平均为0.602。UPGMA聚类分析表明,牛鞭草属6个品种在相似系数为0.652处可分为两大类群。8对EST-SSR引物均能将6个品种完全区分开,以3对EST-SSR引物扩增的电泳图谱为基础,建立了牛鞭草属6个品种的指纹图谱标准模式图,每个品种都有唯一的指纹图谱。牛鞭草属6个品种的平均Nei’s基因多样性指数为0.333,平均Shannon信息指数为0.496,品种间的相似系数介于0.399~0.782之间。可见,牛鞭草属植物品种的遗传多样性较丰富,种间差异明显。     

Genetic fingerprinting of pigeonpea [Cajanus cajan (L.) Millsp.] and its wild relatives using RAPD markers

Randomly amplified polymorphic DNA (RAPD) markers were used for the identification of pigeonpea [Cajanus cajan (L.) Millsp.] cultivars and their related wild species. The use of single primers of arbitrary nucleotide sequence resulted in the selective amplification of DNA fragments that were unique to individual accessions. The level of polymorphism among the wild species was extremely high, while little polymorphism was detected within Cajanus cajan accessions. All of the cultivars and wild species under study could be easily distinguished with the help of different primers, thereby indicating the immense potential of RAPD in the genetic fingerprinting of pigeonpea. On the basis of our data the genetic relationship between pigeonpea cultivars and its wild species could be established.NCL Communication No. 6062     

Genetic relationship between Polish and Chinese strains of the mushroom Agaricus bisporus (Lange) Sing., determined by the RAPD method

The genetic relationship between twenty-six strains of Agaricus bisporus were analysed by the RAPD (random amplified polymorphic DNA) method. DNA amplification was performed with the use of twelve arbitrary 10-mer primers. Four primers, which gave polymorphic band patterns were chosen for RAPD analysis. In total, they gave 24 distinguishable bands, of which nine were polymorphic. The conducted research showed that there is a great genetic similarity among the examined strains. Low polymorphism of the strains may be a proof of a limited genetic pool used in the cultivation of those strains.     

Assessing Genetic Diversity in <Emphasis Type="Italic">Olea europaea</Emphasis> L. Using ISSR and SSR Markers

Olea europaea L. is one of the most economically important crops in the Mediterranean area, and known for having large genetic variability. In order to assess the genetic diversity, DNA from 41 olive cultivars, present in the protected denomination of origin (PDO) region of Trás-os-Montes, was screened using inter simple sequence repeat (ISSR) and microsatellite (SSR) markers. Eleven ISSR primers amplified 135 reproducible bands of which 108 were polymorphic. The percentage of polymorphic bands detected by ISSR was 79%. The highest number of polymorphic bands was obtained by the use of primers UBC807 (15) and UBC809 (16). A total of 67 alleles were detected by six SSR primers, with an average of 11 alleles per primer. The number of alleles per locus ranged from five (ssrOeUaDCA05) to 15 (ssrOeUaDCA03). The observed heterozygosity ranged from 0.219 (ssrOeUaDCA05) to 0.900 (ssrOeUaDCA04), while the expected heterozygosity varied between 0.426 (ssrOeUaDCA05) and 0.887 (ssrOeUaDCA03). The polymorphism information content (PIC) values ranged from 0.392 (ssrOeUaDCA05) to 0.863 (ssrOeUaDCA03). The collection of primers selected gave a reasonable number of amplification products for the genetic diversity analysis. Based on the results, the genetic diversity among 41 olive cultivars is discussed. This study reveals the great importance of guaranteeing the differentiation of olive cultivars and their application for certification purposes.     

Molecular identification of AFLP fragments associated with elytra color variation of the Asian ladybird beetle,Harmonia axyridis (Coleoptera: Coccinellidae)

The Asian ladybird beetle, Harmonia axyridis shows polymorphism in elytra color patterns. However, it is uncertain whether these color patterns are regulated by genetic factors. This investigation used amplified fragment length polymorphism (AFLP) analysis to determine any genetic causes of the variability of color patterns. Using four individuals of each group, AFLP analysis produced 37 polymorphic bands. Among several polymorphic bands, six AFLP markers were associated with elytra color patterns after further analysis using six additional individuals of each group. These polymorphic sites were sequenced but did not match DNA sequence data deposited in GenBank. Based on the color-associated AFLP markers, SCAR primers were designed for PCR amplification of genomic DNA. These primers (SCAR 12 and SCAR 44) were used to analyze color-associated loci and/or alleles of H. axyridis DNA. SCAR 12 primers designed from a Spectabilis type-specific fragment (AFLP 12) amplified a specific band of 530 bp in four Spectabilis individuals, but not in the insects with other color patterns.     

中国35个苦荞审定品种EST-SSR指纹图谱构建与遗传多样性分析

核心引物对种质资源遗传多样性分析、品种鉴定、指纹图谱构建等研究具有重要价值。本研究以35个苦荞（Fagopyrum tataricum（L.） Gaertn）审定品种为材料,从91对苦荞EST-SSR引物中筛选出50对多态性引物。综合考虑引物多态性信息量（PIC）大小、鉴别力（DP）,筛选出等位变异位点数在2~4,PIC值在0.60~0.78之间的6对引物（SSR9007、SSR6873、SSR7642、SSR2234、SSR6789、SSR68216）构建了供试品种的分子指纹图谱。遗传多样性聚类分析结果表明,供试品种的相似系数为0.50~0.99。当遗传相似系数为0.60时,可将供试品种分为4大类群,其中54.3%的供试品种被聚为一类,表明苦荞审定品种遗传组成差异较小,遗传基础狭窄。聚类结果表明各类群间没有明显的地域分布趋势,但能较好的反映供试品种间的亲缘关系。     

Identification of Genetic Diversity Among Cultivars of <Emphasis Type="Italic">Phyllostachys violascens</Emphasis> Using ISSR,SRAP and AFLP Markers

Bamboo is one of the most important forest resources with a strong carbon fixation capability. To utilize genetic resource of Phyllostachys violascens, ISSR (inter-simple sequence repeat), SRAP (sequence-related amplified polymorphism), and AFLP (amplified fragment length polymorphism) techniques were used for the first time for the assessment of genetic diversity within its different cultivars. A total of 209 (136 polymorphic), 222 (152 polymorphic), and 434 (253 polymorphic) bands were detected using 15 ISSR primers, 15 primer combinations of SRAP, and 15 primer combinations of AFLP, respectively. The mean genetic similarity of Ph. violascens was 0.872, 0.867 or 0.871 for the ISSR, SRAP and AFLP analyses, respectively. Based on genetic diversity, all the cultivars of Ph. violascens could be divided into four groups, which are reflected by their morphologies. Our data demonstrated that all three methods are useful in the identification of genetic diversity in Ph.violascens, but AFLP is the most efficient.     

Detection of genetic diversity using RAPD-PCR and sugar analysis in watermelon [Citrullus lanantus (Thunb.) Mansf.] germplasm

RAPD (random amplified polymorphic DNA) markers generated by 15 arbitrary decamers were used to determine the frequency of DNA polymorphism in 39 watermelon [Citrullus lanantus (Thunb.) Mansf.] germplasms. Of the 15 primers tested, all except 1 (primer 275) directed the amplification of polymorphic products. A total of 162 amplification products were generated across all 39 genotypes. Among the 162 fragments, 35 (21%) appeared to be reliable polymorphic markers. The mean value by marker difference in this comparison was 0.24, and the highest, 0.69. Eight RAPD markers could be utilized in the unique variety discrimination 8 watermelon genotypes. From the phenograms constructed by UPGMA based on the comparison of RAPD markers, four clusters were resolved. Each group was also characterized and identified with morphological and genetic characteristics for each genotype. The free sugars of the edible parts of watermelons were analyzed by HPLC (high-performance liquid chromatography). Results from the phylogenetic analysis of band sharing data were consistent with sweetness as measured by HPLC. In conclusion, RAPD assays can be used for providing alternative markers for identifying genotypes and quantitative characteristics in watermelon.     

Inter-simple sequence repeat (ISSR) amplification for analysis of microsatellite motif frequency and fingerprinting in rice (Oryza sativa L.)

 Inter-simple sequence repeat (ISSR) amplification was used to analyze microsatellite motif frequency in the rice genome and to evaluate genetic diversity among rice cultivars. A total of 32 primers, containing different simple sequence repeat (SSR) motifs, were tested for amplification on a panel of 59 varieties, representative of the diversity of cultivated rice (Oryza sativa L.). The ISSR analysis provided insights into the organization, frequency and levels of polymorphism of different simple sequence repeats in rice. The more common dinucleotide motifs were more amenable to ISSR analysis than the more infrequent tri-, tetra- and penta-nucleotide motifs. The ISSR results suggested that within the dinucleotide class, the poly(GA) motif was more common than the poly(GT) motif and that the frequency and clustering of specific tri- and tetra-nucleotide simple sequence repeats was variable and motif-specific. Furthermore, trinucleotide ISSR markers were found to be less polymorphic than either dinucleotide or certain tetranucleotide ISSR markers, suggesting which motifs would be better targets for microsatellite marker development. The ISSR amplification pattern was used to group the rice genotypes by cluster analysis. These results were compared to surveys of the same varieties for amplified fragment length polymorphism (AFLP), restriction fragment length polymorphism (RFLP) and isozyme markers. The ISSR fingerprint could be used to differentiate the genotypes belonging to either Japonica or Indica sub species of cultivated rice and to dissect finer levels of diversity within each subspecies. A higher percentage of polymorphic bands was produced with the ISSR technique than the AFLP method, based on a similar PCR reaction. Therefore, ISSR amplification proved to be a valuable method for determining genetic variability among rice varieties and for rapidly identifying cultivars. This efficient genetic fingerprinting technique would be useful for characterizing the large numbers of rice accessions held in national and international germplasm centers. Received: 25 May 1998 / Accepted: 17 September 1998     

Genetic variation detected with RAPD markers among upland and lowland rice cultivars (Oryza sativa L.)

Genetic variation of nine upland and four lowland rice cultivars (Oryza sativa L.) was investigated at the DNA level using the randomly amplified polymorphic DNA (RAPD) method via the polymerase chain reaction (PCR). Forty-two random primers were used to amplify DNA segments and 260 PCR products were obtained. The results of agarosegel electrophoretic analysis of these PCR products indicated that 208 (80%) were polymorphic. All 42 primers used in this experiment were amplified and typically generated one-to-four major bands. Only two primers showed no polymorphisms. In general, a higher level of polymorphism was found between japonica and indica subspecies while fewer polymorphisms were found between upland and lowland cultivars within the indica subspecies. A dendrogram that shows the genetic distances of 13 rice cultivars was constructed based on their DNA polymorphisms. Classification of rice cultivars based on the results from the RAPD analysis was identical to the previous classification based on isozyme analysis. This study demonstrated that RAPD analysis is a useful tool in determining the genetic relationships among rice cultivars.