Precise Detection and Tracing of Trichoderma hamatum 382 in Compost-Amended Potting Mixes by Using Molecular Markers

Randomly amplified polymorphic DNA (RAPD) analysis and the PCR assay were used in combination with dilution plating on a semiselective medium to detect and enumerate propagules of Trichoderma hamatum 382, a biocontrol agent utilized in compost-amended mixes. Distinct and reproducible fingerprints were obtained upon amplification of purified genomic DNA of T. hamatum 382 with the random primers OPE-16, OPH-19, and OPH-20. Three amplified DNA fragments of 0.35 (OPE-16_0.35), 0.6 (OPH-19_0.6), and 0.65 (OPH-20_0.65) kb were diagnostic for T. hamatum 382, clearly distinguishing it from 53 isolates of four other Trichoderma spp. tested. Some isolates of T. hamatum shared these low-molecular-weight fragments with T. hamatum 382. However, RAPD analysis of isolates of T. hamatum with all three random primers used in consecutive PCR tests distinguished T. hamatum 382 from other isolates of T. hamatum. These three RAPD amplicons were cloned and sequenced, and pairs of oligonucleotide primers for each cloned fragment were designed. Use of the primers in the PCR assay resulted in the amplification of DNA fragments of the same size as the cloned RAPD fragments from genomic DNA of T. hamatum 382. A combination of dilution plating on a semiselective medium for Trichoderma spp. and PCR, with the RAPD primers OPH-19, OPE-16, and OPH-20 or the three sequence-characterized primers, was used successfully to verify the presence of T. hamatum 382 propagules in nine different soil, compost, and potting mix samples. All 23 Trichoderma isolates recovered on semiselective medium from commercial potting mixes fortified with T. hamatum 382 were identified as T. hamatum 382, whereas 274 Trichoderma isolates recovered from the other nine samples were negative in the PCR assay. Thus, this highly specific combination of techniques allowed detection and enumeration of propagules of T. hamatum 382 in fortified compost-amended potting mixes. Sequence-characterized amplified region markers also facilitated the development of a very simple procedure to amplify DNA of T. hamatum 382 directly from fortified compost-amended potting mixes.     

弯孢类炭疽菌菌株的RAPD分析与分类研究

通过RAPD分析对38个不同寄主来源的弯孢类炭疽菌菌株的系统发育及分类进行研究。结果表明:许多引物的RAPD扩增带型在种内是相似或一致的,而种间差异较大。UPGMA聚类分析的结果表明:38个弯孢类炭疽菌菌株被聚为6个类群,群内菌株之间遗传相似性较高,而群间遗传相似性较低;群与群之间分界明显,表明种的分界相当明显。因此,RAPD分析所反映的种间亲缘关系,将有助于疑难种分类地位的确定和近似种的区分。RAPD分析的结果还揭示了一些近似种的分类关系,如按传统方法分别鉴定为Colletotrichumtruncatum、C.circinans和辣椒炭疽菌C.capsici的许多菌株聚类在同一群内,有很高的遗传相似性,实验结果支持它们为同一个种。实验中还发现5条辣椒炭疽菌的特有片断,分别由引物OPE-14、OPH-15(2条)、OPM-12和OPM-20扩增产生。这些特异带的发现对该菌的快速检测和鉴定具有重要意义。     

Ascertaining clonal fidelity of micropropagated plants of Dendrocalamus hamiltonii Nees et Arn. ex Munro using molecular markers

Dendrocalamus hamiltonii is a giant, evergreen, clumping, multipurpose bamboo with strong culms which are mainly used for construction, handicrafts and fuel. The tender shoots are also used as food. Overexploitation of existing natural stocks coupled with harvesting of culms before seed formation, a long flowering cycle, irregular and poor seed production, short seed viability, seed sterility, limited availability of offsets and rhizomes and seasonal dependence are some of the major bottlenecks in conventional propagation of this species. Therefore, alternative methods like micropropagation can fill the gap in demand and supply of true-to-type planting material. Recently, our micropropagation protocol for rapid multiplication of D. hamiltonii through axillary bud proliferation using nodal explants from mature culms was standardized, and more than 3,000 plants were transferred to the field. However, somaclonal variations are known to appear in the in vitro-derived clones due to culture-induced stresses. Therefore, the present investigation was conducted to ascertain the effect of the length of in vitro culture age on clonal fidelity of regenerated plants using random amplified polymorphic DNA (RAPD), inter-simple sequence repeat (ISSR), amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers. The genomic DNA samples (i.e. mother plant, in vitro-raised shoots from the 3rd to 30th passage, and in vitro-raised plants transferred to the field) were subjected to PCR amplification using 90 primer combinations (25 each of RAPD, ISSR and SSR, and 15 AFLP primer combinations) of which 76 (23 RAPD, 24 ISSR, 21 SSR and 8 AFLP) markers showed amplified DNA fragments. The 23 RAPD primers produced 162 distinct amplified DNA fragments from 2 (OPE-5) to 16 (OPE-16) fragments per primer, while 24 ISSR primers produced 181 distinct amplified DNA fragments with an average of 7.5 fragments per primer. The number of bands generated by SSR primers varied from 3 (RM-7 and RM-240) to 14 (RM-44), and the eight combinations of AFLP primers produced 369 distinct and scorable amplified DNA fragments with an average of 46.1 fragments per primer. Appearance of monomorphic bands with all the tested primer combinations confirmed the true-to-type nature of the in vitro clones of D. hamiltonii and hence the suitability of the developed micropropagation protocol for commercial-scale plant production.     

A comparative analysis of genetic diversity in blackgram genotypes using RAPD and ISSR markers

Random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) markers were used to study the DNA polymorphism in elite blackgram genotypes. A total of 25 random and 16 ISSR primers were used. Amplification of genomic DNA of the 18 genotypes, using RAPD analysis, yielded 104 fragments that could be scored, of which 44 were polymorphic, with an average of 1.8 polymorphic fragments per primer. Number of amplified fragments with random primers ranged from two (OPA-13) to nine (OPK-4) and varied in size from 200 bp to 2,500 bp. Percentage polymorphism ranged from 16.6% (OPK-7) to a maximum of 66.6% (OPE-5, OPH-2, and OPK-8), with an average of 42.7%. The 16 ISSR primers used in the study produced 101 bands across 18 genotypes, of which 55 were polymorphic. The number of amplified bands varied from two (ISSR 858) to ten (ISSR 810), with a size range of 200–2,200 bp. The average numbers of bands per primer and polymorphic bands per primer were 6.3 and 3.4, respectively. Percentage polymorphism ranged from 25% (ISSR 885) to 100% (ISSR 858), with an average percentage polymorphism of 57.5% across all the genotypes. The 3-anchored primers based on poly(GA) and poly(AG) motifs produced high average polymorphisms of 54.98% and 58.32%, respectively. ISSR markers were more efficient than the RAPD assay, as they detected 57.4% polymorphic DNA markers in Vigna mungo as compared to 42.7% for RAPD markers. The Mantel test between the two Jaccards similarity matrices gave r =0.32, showing low correlation between RAPD- and ISSR-based similarities. Clustering of genotypes within groups was not similar when RAPD and ISSR derived dendrogram were compared, whereas the pattern of clustering of the genotypes remained more or less the same in ISSR and combined data of RAPD and ISSR.     

PCR-based genotyping of epidemic and preepidemic Trichoderma isolates associated with green mold of Agaricus bisporus.

We used randomly amplified polymorphic DNA (RAPD)-PCR to estimate genetic variation among isolates of Trichoderma associated with green mold on the cultivated mushroom Agaricus bisporus. Of 83 isolates examined, 66 were sampled during the recent green mold epidemic, while the remaining 17 isolates were collected just prior to the epidemic and date back to the 1950s. Trichoderma harzianum biotype 4 was identified by RAPD analysis as the cause of almost 90% of the epidemic-related episodes of green mold occurring in the major commercial mushroom-growing region in North America. Biotype 4 was more closely allied to T. harzianum biotype 2, the predominant pathogenic genotype in Europe, than to the less pathogenic biotype 1 and Trichoderma atroviride (formerly T. harzianum biotype 3). No variation in the RAPD patterns was observed among the isolates within biotype 2 or 4, suggesting that the two pathogenic biotypes were populations containing single clones. Considerable genetic variation, however, was noted among isolates of biotype 1 and T. atroviride from Europe. Biotype 4 was not represented by the preepidemic isolates of Trichoderma as determined by RAPD markers and PCR amplification of an arbitrary DNA sequence unique to the genomes of biotypes 2 and 4. Our findings suggest that the onset of the green mold epidemic in North America resulted from the recent introduction of a highly virulent genotype of the pathogen into cultivated mushrooms.     

Characterization of Moroccan Isolates of Verticillium dahliaeKleb Using RAPD Markers

Isolates of Verticillium dahliae were sampled from different olive tree orchards in Morocco. These olive trees were located in different commercial culture locations in southern, central and northern Morocco. The isolates were characterized using genetic markers obtained after their DNA PCR amplification with random amplified polymorphic DNA (RAPD) primers. Among the 40 primers tested, 10 generated a total of 66 polymorphic fragments. Among the 38 isolates of V. dahliae tested, RAPD markers were successful in the characterization of groups based on their geographic origin. With the exception of one specific isolate, no correlation could be established among the isolates, based on the morphological appearance of the colony in culture.     

A PCR Assay to Identify and Distinguish Single Juveniles of Meloidogyne hapla and M. chitwoodi

Random amplified polymorphic DNA (RAPD) bands that distinguish Meloidogyne hapla and M. chitwoodi from each other, and from other root-knot nematode species, were identified using a series of random octamer primers. The species-specific amplified DNA fragments were cloned and sequenced, and then the sequences were used to design 20-mer primer pairs that specifically amplified a DNA fragment from each species. Using the primer pairs, successful amplifications from single juveniles were readily attained. A mixture of four primers in a single PCR reaction mixture was shown to identify single juveniles of M. hapla and M. chitwoodi. To confirm specificity, the primers were used to amplify DNA from several isolates of M. hapla that originated from different crops and locations in North America and also from isolates of M. chitwoodi that differed in host range. In characterizing the M. hapla isolates, it was noted that there was a mitochondrial DNA polymorphism among isolates for cleavage by the restriction endonuclease DraI.     

Strain-specific detection of two Aureobasidium pullulans strains, fungal biocontrol agents of fire blight by new, developed multiplex-PCR

Aim:  The aim of this study was to develop a specific and sensitive identification method for two Aureobasidium pullulans biocontrol strains, CF10 and CF40, based on a sequence-characterized amplified region (SCAR) derived from RAPD – and multiplex-RAPD PCR analysis. Methods and Results:  The random amplified polymorphic DNA (RAPD) and multiplex RAPD-PCR techniques were used for a preliminary screening of A. pullulans genetic variability among 200 isolates. This approach allowed the selection of ten fragments present solely in strains CF10 and CF40. The RAPD fragments were cloned, sequenced and used to design two SCAR primers. Two primer pairs obtained from SCH3RAPD fragment of CF 40 and 6RAPD of CF10 were highly specific and sensitive. Conclusions:  In this study, we developed strain-specific multiplex-PCR based on sequence-characterized amplified region (SCAR) markers to simultaneously detect both strains in a single PCR. Significance and Impact of the Study:  This new multiplex-PCR provides a valuable tool for specific and sensitive identification of CF10 and CF40, and could be used in studies on the efficacy and persistence of introduced strains of A. pullulans for fire blight control.     

Male-specific band in random amplified microsatellite polymorphism fingerprints of Holstein cattle

A total of 65 blood samples collected from Holstein cattle were employed for DNA extraction. Genomic DNA were amplified by means of random amplified polymorphic DNA (RAPD). One hundred and one random primers (Operon kits OPAA, OPAO, OPAV, OPC, OPE and OPA-06) were used for polymerase chain reactions (PCR). The PCR products were size fractionated by means of electrophoresis in agarose gel, transferred to a nylon membrane, and then hybridized with a alpha-32P-labeled microsatellite probe for random amplified microsatellite polymorphism (RAMPO) analysis. All the primers produced many amplification patterns in RAMPO fingerprints, but only OPE-01 (5'-CCCAAGGTCC-3') yielded a male-specific strong signal. Among the 65 cases, the specific band could be observed in the RAMPO fingerprints of the 24 male samples but not in the 41 female samples. Therefore, this specific band is peculiar to male cattle.     

Strain-specific detection of introduced Beauveria bassiana in agricultural fields by use of sequence-characterized amplified region markers

Field studies on the efficacy and persistence of an introduced strain of Beauveria bassiana for insect control require detection assays to differentiate the non-native strain from indigenous populations. In this study we developed strain-specific molecular markers based on polymerase chain reaction amplification of sequence-characterized amplified regions (SCAR) in combination with dilution plating on semi-selective medium to detect and estimate density of propagules of a commercial strain of B. bassiana (strain GHA) in field samples. Using random amplified polymorphic DNA (RAPD) analysis, unique fragments that distinguished GHA from other strains of B. bassiana were obtained. Three amplicons, OPA-14(0.44), OPA-15(0.44), and OPB-9(0.67), generated with RAPD primers were cloned and sequenced and used as bases for designing SCAR primers OPA14 F/R(445), OPA15 F/R(441), and OPB9 F/R(677), respectively. All three SCAR primers were highly sensitive, capable of detecting 100pg B. bassiana GHA genomic DNA, and thus could be used to detect varying levels of the fungus in the field.     

RAPD (arbitrary primer) PCR is more sensitive than multilocus enzyme electrophoresis for distinguishing related bacterial strains.

The RAPD (random amplified polymorphic DNA) fingerprinting method, which utilizes low stringency PCR amplification with single primers of arbitrary sequence to generate strain-specific arrays of anonymous DNA fragments, was calibrated relative to the widely used, protein-based multilocus enzyme electrophoretic (MLEE) typing method. RAPD fingerprinting was carried out on five isolates from each of 15 major groups of Escherichia coli strains that cause diarrheal disease worldwide (75 isolates in all). Each group consisted of isolates that were not distinguishable from one another by MLEE typing using 20 diagnostic enzyme markers. In our RAPD tests, three or more distinct subgroups in each MLEE group were distinguished with each of five primers, and 74 of the 75 isolates were distinguished when data obtained with five primers were combined. Thus, RAPD typing is far more sensitive than MLEE typing for discriminating among related strains of a species. Despite their different sensitivities, the same general relationships among strains were inferred from MLEE and RAPD data. Thus, our results recommend use of the RAPD method for studies of bacterial population genetic structure and evolution, as well as for epidemiology.     

Hydroxylation of progesterone by some<Emphasis Type="Italic">Trichoderma</Emphasis> species

Thirty-three isolates belonging to six species of the genus Trichoderma were tested for the ability to hydroxylate progesterone to 11alpha-, 11beta-, 11alpha,17alpha- and 6beta, 17alpha-derivatives, and epicortisol. T. aureoviride, T. harzianum, T. polysporum and T. pseudokoningii produced 11alpha-hydroxyprogesterone. T. harzianum and T. hamatum can form only the 11beta-isomer. T. koningii and T. hamatum produced 11alpha-, 11beta-, 11alpha,17alpha- and 6beta,11alpha-hydroxy derivatives. 11alpha, 11beta, 6beta,11alpha- and 11alpha,17alpha-hydroxyprogesterones and epicortisol are produced by T. aureoviride and T. pseudokoningii. Cortisol was produced only when the medium was fortified by 10 g/L peptone. This is the first record of conversion of progesterone to mono-, di- and trihydroxyprogesterones by these Trichoderma species.     

Direct sequencing of RAPD fragments using 3'-extended oligonucleotide primers and dye terminator cycle-sequencing.

Random amplified polymorphic DNA (RAPD) markers are used widely to develop high resolution genetic maps and for genome fingerprinting. Typically, single oligomers of approximately 10 nucleotides are used to PCR amplify characteristic RAPD marker fragments. We describe an efficient method for the direct end-sequencing of gel-purified RAPD fragments using one primer from a set of four 3'-terminal extended (A, T, C or G) oligonucleotides, identical to the RAPD primer but for the single nucleotide extension. Strand-specific DNA sequence could be independently read from each of the RAPD fragments without recourse to strand separation or fragment cloning. Informative RAPD fragments could be readily converted into mapped STS or SCAR loci using this technology. The 3'-extended primers may also be used to amplify independent genomic RAPD markers.     

Molecular identification of isolates of <Emphasis Type="Italic">Peronosclerospora sorghi</Emphasis> from maize using PCR-based SCAR marker

The fungus Peronosclerospora sorghi [Weston and Uppal (Shaw)] infects both sorghum and maize and incites downy mildew disease. Pathogenic and molecular variability among isolates of P. sorghi from sorghum and maize has been reported. In the present study we developed a DNA sequence characterized amplified region (SCAR) marker for identification of isolates of P. sorghi from maize by using polymerase chain reaction (PCR). The random amplified polymorphic DNA (RAPD) primer OPB15 consistently amplified a 1,000 base pairs (bp) product in PCR only from DNA of P. sorghi isolates from maize and not from isolates of sorghum. The PCR-amplified 1,000-bp product was cloned and sequenced. The sequence of the SCAR marker was used for designing specific primers for identification of maize isolates of P. sorghi. The SCAR primers amplified a 800 bp fragment only from genomic DNA of maize isolates of P. sorghi. The SCAR primers developed in this study are highly specific and reproducible, and proved to be powerful tool for identification of P. sorghi isolates from maize.     

Male-specific DNA sequences in pigs

One hundred primers (Operon kits OPAA, OPAO, OPAV, OPC, and OPE series) were used for random amplified polymorphic DNA (RAPD) fingerprinting to determine male-specific fragments. Seventy-four percent of the primers yielded Yorkshire polymorphic fragments. One of these primers, OPAV-18, produced a novel 1098-bp DNA fragment found only in tested males. This male-specific fragment was isolated and constructed into plasmids for nucleotide sequencing. Two primers (5'-TTGCTCACGG TAGATAACAA GAGAG-3' and 5'-TTGCTCACGG ACCAGGTAGG GAATG-3') were designed according to the cloned male-specific sequence to amplify the male-specific band using polymerase chain reaction (PCR) for pig sexing. Sex-specific bands in the PCR gel products were represented in males but none were found in females when Yorkshire, Duroc, and Landrace genomic DNA samples were amplified with these two primers by PCR. The PCR products in the gel were transferred to nylon membranes and hybridized with a 32P-dCTP labeled probe of the cloned male-specific DNA fragment. There was a clear hybridization signal in samples from all of the male pigs, but not from those of female pigs. Male and female genomic DNA samples from these pigs were spotted onto nylon membranes and hybridized with the male-specific probe. The probe hybridized strongly to males only. A high degree of sequence homology was found among the novel male-specific DNA sequences in Yorkshire, Duroc and Landrace. The sex of these three breeds of pigs could be easily and effectively determined using these two primers.     

Differentiation of isolates of Discula umbrinella (Teleomorph: Apiognomonia errabunda) from beech, chestnut, and oak using randomly amplified polymorphic DNA markers.

Genetic variation in 30 isolates of Discula umbrinella derived from beech, chestnut, and oak was assessed using randomly amplified polymorphic DNA (RAPD) and restriction fragment length polymorphic markers. Polymerase chain reaction amplifications with 17 primers produced 134 different DNA fragments. Three RAPD fragments were subsequently used for Southern hybridization. By these techniques up to four different individuals could be detected in the same leaf. The presence of several individuals within a single leaf indicates a finely tuned balance between the endophyte and its host. Cluster analysis of all arbitrary primed amplified DNA fragments showed that the isolates could be placed into four groups corresponding to their host origin. The high percentage of private RAPD variants within groups is consistent with low gene flow.     

Identification of wild and cultivated Hordeum species using two-primer RAPD fragments

Random amplified polymorphic DNAs (RAPD) analysis has been adapted to assess the degree of RAPD polymorphism within the genus Hordeum to determine if this approach can distinguish wild and cultivated species. Nineteen wild and seven cultivated accessions were evaluated using 4 random 10-mer primers. The potential of the RAPD assay was further increased by combining two primers in a single polymerase chain reaction (PCR). RAPD fragments generated by two pairs of arbitrary 10-mer primers discriminated six wild species and one cultivated species by banding profiles. The size of the amplified DNA fragments ranged from 150 to 2300 base pairs. 33 %percent of the fragments were common to both wild and cultivated species; 67% were specific to either wild or cultivated species. The average difference in fragments was less within the species than among the species. By comparing RAPD fingerprints of wild and cultivated barley, markers were identified among the set of amplified DNA fragments which could be used to distinguish wild and cultivated Hordeum species. This revised version was published online in July 2006 with corrections to the Cover Date.     

Morphological, Biochemical and Molecular Characterization of Trichoderma harzianum Isolates for their Efficacy as Biocontrol Agents

The random amplified polymorphic DNA (RAPD) procedure was used to examine the genetic variability among 8 isolates of Trichoderma harzianum , and their ability to antagonize Sclerotium rolfsii using a dual culture assay was correlated with RAPD profiles. Eight oligodeoxynucleotide primers were selected for the RAPD assays, which resulted in 86 bands for 8 isolates of T . harzianum . The data were entered into a binary matrix and a similarity matrix was constructed using the DICE similarity (SD) index. An unweighted pair grouping mathematical averaging (UPGMA) cluster based on SD values was generated using the NTSYS computer program. A mean coefficient of similarity obtained for pairwise comparisons was c. 30% and it showed that the variability among the isolates of T. harzianum was very high. Using the dual culture method in antagonism experiments, the T. harzianum isolates were classified in to antagonism classes. Further, T. harzianum isolates were screened for chitinase and β-1,3-glucanase activity. RAPD was efficient in demonstrating the high intraspecific genetic variation among isolates. The dendrogram did not show the grouping of isolates by their level of antagonism. Relationship among polymorphism existent, the aggressiveness and the origin of isolates were not found.     

云南大围山自然保护区木霉菌多样性与RAPD分析

描述了从云南省大围山自然保护区土壤样品中分离鉴定的 6个木霉集合种 (speciesaggregates) :康氏木霉(Trichoderma .koningiiOud) ,哈茨木霉 (T .harzianumRifai) ,绿色木霉 (T .viridePersexS .F .Gray) ,长枝木霉(T .longibrachiatumRifai) ,桔绿木霉 (T .citrinovirideBissett) ,钩状木霉 (T .hamatum (Bon)Bain)。对 6种木霉分别进行拮抗活性测定和随机扩增多态性DNA(RAPD) ;其结果 ,6种木霉对 4种植物病原菌均有不同程度的拮抗性 ;6种木霉DNA扩增谱带差异明显 ,遗传相似性聚类分析结果按一定遗传距离可分 6群 ;与形态分类结果一致 ,可作为木霉分类鉴定的依据。     

Development of reliable PCR-based markers linked to downy mildew resistance genes in lettuce

Summary Sequence characterized amplified regions (SCARs) were derived from eight random amplified polymorphic DNA (RAPD) markers linked to disease resistance genes in lettuce. SCARs are PCR-based markers that represent single, genetically defined loci that are identified by PCR amplification of genomic DNA with pairs of specific oligonucleotide primers; they may contain high-copy, dispersed genomic sequences within the amplified region. Amplified RAPD products were cloned and sequenced. The sequence was used to design 24-mer oligonucleotide primers for each end. All pairs of SCAR primers resulted in the amplification of single major bands the same size as the RAPD fragment cloned. Polymorphism was either retained as the presence or absence of amplification of the band or appeared as length polymorphisms that converted dominant RAPD loci into codominant SCAR markers. This study provided information on the molecular basis of RAPD markers. The amplified fragment contained no obvious repeated sequences beyond the primer sequence. Five out of eight pairs of SCAR primers amplified an alternate allele from both parents of the mapping population; therefore, the original RAPD polymorphism was likely due to mismatch at the primer sites.