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PCR Conditions (pcr + condition)
Selected AbstractsVisualization of Differential Gene Expression , Using Fluorescence-Based cDNA-AFLPENGINEERING IN LIFE SCIENCES (ELECTRONIC), Issue 1 2004S. Gigliotti Abstract cDNA-AFLP is one of the techniques developed to study differentially expressed genes. This recent technique is advantageous because it does not need prior sequence knowledge and is reliable due to highly stringent PCR conditions. The traditional cDNA-AFLP method uses radioactively labelled products and is characterised by high sensitivity and resolution. Here, the use of Cy5-labelled primers to detect products on polyacrylamide gels is reported. This non-radioactive method, based on fluorescence, is shown to be faster and the recovery of interesting bands is easier. The study of the differential gene expression of the interaction between potato and Phytophthora infestans was used for the valuation of this method. Different gene expression profiles , such as up-regulation, down-regulation or point expression , were obtained. Moreover, this technique was shown to be highly reproducible. [source] Direct genotyping of the poplar leaf rust fungus, Melampsora medusae f. sp. deltoidae, using codominant PCR-SSCP markersFOREST PATHOLOGY, Issue 4 2005M. Bourassa Summary Two anonymous DNA markers that are revealed by single-strand conformational polymorphism (SSCP) analysis were developed for detection of polymorphisms in Melampsora medusae f. sp. deltoidae (Mmd). Mono-uredinial isolates of Mmd were first obtained, DNA was extracted from urediniospores and random amplified polymorphic DNA (RAPD) products of eight mono-uredinial isolates were separated on a SSCP gel to identify differences among them. Bands representing putative polymorphic loci among the eight isolates tested were excised from the SSCP gel and re-amplified by polymerase chain reaction (PCR), and then cloned and sequenced. A primer pair was designed to amplify a DNA fragment of a size suitable for SSCP analysis (<600 bp) for two out of three DNA fragments sequenced. Each set of primers amplified a PCR product for all eight isolates that were initially used to generate them and the resulting PCR products were analysed by SSCP. Polymorphisms among isolates were identified for both putative loci. The two primer pairs amplified a PCR product of the expected size on an additional 32 mono-uredinial isolates of Mmd tested. From the overall 40 mono-uredinial isolates tested, 5 and 11 alleles were detected, and 12 and 34 isolates showed to be heterozygous, as indicated by the presence of more than two bands on the SSCP gel, at loci A and B, respectively. The primer pairs were tested for specificity against 106 fungal isolates belonging to various taxa, including other rusts, and against DNA extracted from greenhouse-grown healthy poplar leaves. DNA amplification products of the expected size were obtained only when Mmd DNA was present. Optimization of PCR conditions with these two primer pairs allowed genotyping directly from single uredinia extracted from infected leaves, thus alleviating the need to culture the fungus to characterize individuals, hence making it possible to process large numbers of samples for population studies. Résumé Deux marqueurs génétiques anonymes, révélés par analyse SSCP (Single-Strand Conformational Polymorphism) ont été développés afin de détecter des polymorphismes génétiques chez le Melampsora medusae f. sp. deltoidae (Mmd). Dans un premier temps, des isolats mono-urédiniaux ont été obtenus, puis l'ADN a été extrait à partir des urédiniospores, les produits d'amplification RAPD (Random Amplified Polymorphic DNA) ont été générés à partir de huit de ces isolats mono-urédiniaux et les résultats d'amplification ont par la suite été séparés sur gel SSCP afin d'identifier des polymorphismes entre les isolats. Les bandes sur gel SSCP représentant des loci polymorphiques putatifs entre les isolats ont été prélevées du gel, ré-amplifiées par la technique d'amplification PCR (Polymerase Chain Reaction), clonées, puis séquencées. Pour deux fragments d'ADN séquencés sur un total de trois, une paire d'amorces a été développée afin de permettre l'amplification d'un fragment de taille adéquate pour analyse SSCP (<600 pb). Chaque paire d'amorces a produit un signal d'amplification positif pour chacun des huit isolats à l'origine de ces nouvelles amorces; les produits PCR ont ensuite été analysés par la technique SSCP. Les deux loci putatifs ont révélé des polymorphismes génétiques entre les isolats. Les deux paires d'amorces ont produit un fragment d'amplification de la taille attendue pour chacun des 32 isolats mono-urédiniaux supplémentaires testés. Des 40 isolats testés, 5 et 11 allèles ont été détectés, alors que 12 et 34 isolats se sont révélés hétérozygotes (tel qu'indiqué par la présence de plus de deux bandes sur gel SSCP) pour les loci A et B, respectivement. La spécificité des deux paires d'amorces a été testée à partir de 106 isolats fongiques appartenant à différents groupes taxonomiques, incluant d'autres rouilles, de même qu'à partir de l'ADN extrait de feuilles de peupliers cultivés en serre. Un signal d'amplification positif n'a été obtenu qu'en présence d'ADN du Mmd. Les conditions d'amplification PCR ont été optimisées pour les deux paires d'amorces développées afin de permettre le génotypage directement à partir d'urédinies individuelles prélevées sur des feuilles de peuplier infectées. La possibilité de génotyper directement des urédinies individuelles permet d'éviter l'obligation de cultiver le champignon pour génotyper les individus, ce qui représente un avantage important des marqueurs génétiques développés ici, puisqu'il devient dès lors possible de traiter un grand nombre d'échantillons lors de la réalisation d'études de populations. Zusammenfassung Zum Nachweis von Polymorphismen bei Melampsora medusae f. sp. deltoidae wurden zwei anonyme DNA Marker aus einer SSCP-Analyse entwickelt. Zunächst wurden Isolate aus einzelnen Uredinien gewonnen, die DNA wurde aus den Uredosporen extrahiert und polymorphe RAPD, Amplifikationsprodukte von acht Mono-Uredinium-Isolaten wurden auf einem SSCP-Gel getrennt, um Unterschiede zwischen ihnen nachzuweisen. Banden, die bei den acht geprüften Isolaten mögliche polymorphe Loci darstellten, wurden aus dem SSCP-Gel ausgeschnitten und mit PCR reamplifiziert, dann geklont und sequenziert. Für zwei von insgesamt drei sequenzierten DNA-Fragmenten wurde ein Primerpaar entwickelt, um ein in der Grösse für die SSCP-Analyse (<600 bp) geeignetes DNA-Fragment zu amplifizieren. Jedes Primerpaar amplifizierte bei allen acht ursprünglich für ihre Entwicklung verwendeten Isolaten ein PCR-Produkt, und diese wurden anschliessend mit SSCP analysiert. Für beide putativen Loci wurden bei den Isolaten Polymorphismen festgestellt. Die beiden Primerpaare amplifizierten ein PCR-Produkt der erwarteten Grösse bei allen 32 zusätzlich geprüften Mono-Uredinium-Isolaten des Pilzes. Bei den insgesamt 40 geprüften Mono-Uredinium-Isolaten wurden für die Loci A und B 5 bzw. 11 Allele gefunden, und 12 bzw. 34 Isolate erwiesen sich als heterozygot, was durch mehr als zwei Banden auf den SSCP-Gelen angezeigt wurde. Die Spezifität der Primerpaare wurden mit 106 Pilzisolaten aus verschiedenen Taxa geprüft, darunter andere Roste sowie DNA aus gesunden Pappelblättern aus Gewächshauskulturen. DNA-Amplifikationsprodukte der erwarteten Grösse wurden nur erhalten, wenn DNA von Melampsora medusae f. sp. deltoidae präsent war. Die PCR-Amplifikations-Bedingungen mit diesen beiden Primerpaaren wurde so optimiert, dass ein Genotyping direkt bei einzelnen von infizierten Blättern entnommenen Uredinien erfolgen kann und somit eine Pilzkultur zur Charakterisierung von Individuen entfällt. Dies ermöglicht grosse Probenzahlen in Populationsstudien. [source] Detection of Helicobacter pylori DNA by a Simple Stool PCR Method in Adult Dyspeptic PatientsHELICOBACTER, Issue 4 2005Nazime ABSTRACT Introduction.,Helicobacter pylori is the major agent causing peptic ulcer, gastric cancer and mucosa-associated lymphoid tissue (MALT) gastric lymphoma. A simple stool polymerase chain reaction (PCR) method was performed and compared with the gold standards for the diagnosis of H. pylori infection. Material and methods., A total of 54 adult patients (mean age, 46.41 ± 13.12 years) with dyspeptic symptoms from Gastroenterology at Dokuz Eylül University Hospital between May and November 2003 were included. Two antrum and corpus biopsies were taken from each patient. Infection by H. pylori was defined as positivity and negativity of the gold standards. DNA extraction of stool specimens was done using QIAamp DNA Stool Mini Kit (QIAGEN) and PCR conditions included amplification and reamplification steps using the H. pylori ureA gene specific primers (HPU1, HPU2) and were visualized on 1% agarose gel stained with ethidium bromide. Results., Forty-six of 54 patients (85.2%) were diagnosed positive and eight (14.8%) were negative for H. pylori infection by the gold standard methods. Thirty-two patients were positive (59.3%) and 22 of them (40.7%) were detected negative by stool PCR method. The stool PCR method and gold standard methods showed a statistical difference for the detection of H. pylori infection (p < .0001). Sensitivity, specificity, likelihood ratio, and positive and negative predictive values were 65.22%, 75%, 2.61%, 93.75%, and 27.7%, respectively. Discussion., The PCR on the stool specimens resulted as being a very specific test. We suggest that a simple stool PCR method that we developed can be used to detect H. pylori, virulence genes, and in drug resistance studies either first line diagnostic methods in the laboratory or in the clinical management of dyspeptic patients. [source] Palindromic AT-rich repeat in the NF1 gene is hypervariable in humans and evolutionarily conserved in primates,HUMAN MUTATION, Issue 4 2005Hidehito Inagaki Abstract Palindromic sequences are dispersed in the human genome and may cause chromosomal translocations in humans. They constitute unsequenced gaps in the human genome because of their resistance to PCR amplification, cloning into vectors, and sequencing. We have overcome these difficulties by using a combination of optimized PCR conditions, cloning in a recombination-deficient E. coli strain, and RNA polymerases in sequencing. Using these methods, we analyzed a palindromic AT-rich repeat (PATRR) in the neurofibromatosis type 1 (NF1) gene on chromosome 17 (17PATRR). The 17PATRR manifests a size polymorphism due to a highly variable length of (AT)n dinucleotide repeats within the PATRR. 17PATRRs can be categorized into two types: a longer one that comprises a nearly or completely perfect palindrome, and a shorter one that represents its deleted asymmetric derivative. In vitro analysis shows that the longer 17PATRR is more likely to form a cruciform structure than the shorter one. Two reported t(17;22)(q11;q11) patients with NF1, whose breakpoints were identified within the 17PATRR, have translocations that are derived from perfect or nearly perfect palindromic alleles. This implies that the symmetric structure of a PATRR can induce a translocation. We identified conserved PATRRs within the NF1 gene in great apes and similar inverted repeats in two Old World monkeys, but not in New World monkeys or other mammals. This indicates that the palindromic region appeared approximately 25 million years ago and elongated during primate evolution. Although such palindromic regions are usually unstable and disappear rapidly due to deletion, the 17PATRR in the NF1 gene was stably conserved during evolution for reasons that are still unknown. Hum Mutat 26(4), 332,342, 2005. © 2005 Wiley-Liss, Inc. [source] PCR assays for the sugarcane rust pathogens Puccinia kuehnii and P. melanocephala and detection of a SNP associated with geographical distribution in P. kuehniiPLANT PATHOLOGY, Issue 4 2010N. C. Glynn Puccinia kuehnii and P. melanocephala cause orange and brown rust of sugarcane, respectively. Puccinia kuehnii has been confirmed in Asia, Australia and recently, the Caribbean basin, whereas P. melanocephala is distributed among the majority of sugarcane growing regions. Differentiating these two economically significant pathogens visually is problematic and limited to material exhibiting mature disease symptoms or spores. Partial ITS1, ITS2 and complete 5·8S sequences were generated from P. kuehnii and P. melanocephala isolates from around the world. PCR primers and dual labelled hydrolysis probes were designed for each pathogen for use in real-time PCR and optimized using locked nucleic acids (LNA). The primers amplified DNA from their target pathogens and not from other species of Puccinia or fungal species isolated from sugarcane leaves. Optimized real-time PCR conditions allowed the detection of 0·19 pg of P. kuehnii or P. melanocephala genomic DNA and differentiated the pathogens on sugarcane leaves prior to observing typical symptoms in the field. Primer-introduced restriction analysis-PCR (PIRA-PCR) was used to detect a single nucleotide polymorphism (Pk ITS1 183A>G) in ITS1 of P. kuehnii. Allele 183A was observed in all samples, whereas 183G was detected in 52% of samples from Asia and Australia yet absent from all Caribbean basin samples. Long distance spore dispersal, dispersal through an intermediate location or improper movement of contaminated material could explain the introduction of P. kuehnii to the Western hemisphere. However, the current proliferation of the pathogen in the Americas is limited to isolates which contain only the 183A allele. [source] | ||||||||||