Your search keyword '"Szemes M"' showing total 6 results

1. Multiplex detection and identification of bacterial pathogens causing potato blackleg and soft rot in Europe, using padlock probes

Author

Slawiak, M., van Doorn, R., Szemes, M., Speksnijder, A.G.C.L., Waleron, M., van der Wolf, J.M., Lojkowska, E., and Schoen, C.D.

Subjects

Biointeracties and Plant Health, Bioint Moleculair Phytopathology, pectin lyase, food and beverages, dickeya-chrysanthemi, genetic diversity, sp-nov, pectobacterium-carotovorum, erwinia-carotovora, bacteria, PRI BIOINT Ecological Interactions, carotovora ssp-atroseptica, PRI Biointeractions en Plantgezondheid, oligonucleotide-microarray, fragment-length-polymorphism, new-zealand

Abstract

The objective of this study was to develop a multiplex detection and identification protocol for bacterial soft rot coliforms, namely Pectobacterium wasabiae (Pw), Pectobacterium atrosepticum (Pba) and Dickeya spp., responsible for potato blackleg and tuber soft rot. The procedures were derived from the phylogenetic relationships of these and other Enterobacteriaceae based on recA sequences. The group of Pw strains was highly homogeneous and could be distinguished from the other species. A ligation-based method for detection of Pw was developed. Five padlock probes (PLPs) were designed, targeting recA sequences to identify the Pw, Pba or Dickeya spp., whereas a sixth probe recognised recA sequences of all soft rot coliforms including Pectobacterium carotovorum subsp. carotovorum (Pcc). Two PLP-based applications were developed: one using real-time PCR and one using universal microarrays. Assay sensitivity and specificity were demonstrated using 71 strains of Pw, Pcc, Pba and Dickeya spp. Both multiplex methods can be potentially used for seed testing and in ecological studies, but further validation is required

Published

2013

2. Multiplex nucleic acid detection

Author

Schoen, C.D., Szemes, M., and Bonants, P.J.M.

Subjects

Biointeracties and Plant Health, Life Science, PRI Biointeractions en Plantgezondheid

Abstract

The present invention relates to a novel multiplex detection of nucleic acid targets in a sample. This is accomplished by using novel padlock probes which contain a unique cleavage site for linearization and a first member of a binding pair for isolation of the padlock probe from the sample. Three different designs of the padlock probes are described and examples are shown for ligation, amplification and qualitative and quantitative detection. The combination of these features gives a fast, accurate and specific multiplex detection assay

Published

2007

3. Use of hybridization melting kinetics for detecting Phytophthora species using three dimensional microarrays

Author

Anderson, N.M., Szemes, M., O'Brien, P.A., de Weerdt, M., Schoen, C.D., Boender, P.J., and Bonants, P.J.M.

Subjects

Biointeracties and Plant Health, cinnamomi, eucalyptus, pcr, secondary phloem, 16s ribosomal-rna, banksia-grandis, PRI Biointeractions en Plantgezondheid, probe, isolate, soil

Abstract

Microarray-based detection is limited by variable and inconsistent hybridization intensities across the diversity of probes used in each array. In this paper, we introduce a novel concept for the differentiation of detection targets using duplex melting kinetics. A microarray assay was developed on a PamChip microarray enabling the differentiation of target Phytophthora species using the melting kinetics of probe-target duplexes. In the majority of cases the hybridization kinetics of target and non-target duplexes differed significantly. Analysis of the melting kinetics of duplexes formed by probes with target and non-target DNA was found to be an effective method for determining specific hybridization and was independent of fluctuations in hybridization signal intensity. This form of analysis was more robust than the traditional approach based on hybridization intensity, and enabled the detection of individual Phytophthora species and mixtures thereof

Published

2006

4. Novel molecular and biochemical techniques for quality control and monitoring in the agrofood production chain

Author

Schoen, C.D., Szemes, M., Bonants, P.J.M., Speksnijder, A.G.C.L., Klerks, M.M., van den Boogert, P.H.J.F., Waalwijk, C., van der Wolf, J.M., and Zijlstra, C.

Subjects

Biointeracties and Plant Health, Bacteria, Microarrays, Nematodes, pUMA, TaqMan, Fungi, DNA, Mycotoxins, NASBA, PRI Bioscience, Detection, PCR, Viruses, PRI Biointeractions en Plantgezondheid, ELISA, DGGE, Pathogens, AmpliDet RNA, Diagnostics, Molecular beacon, Multiplex

Published

2005

5. From single to multiplex detection of plant pathogens: pUMA, a new concept of multiplex detection using microarrays

Author

Bonants, P.J.M., Schoen, C.D., Szemes, M., Speksnijder, A.G.C.L., Klerks, M.M., van den Boogert, P.H.J.F., Waalwijk, C., van der Wolf, J.M., and Zijlstra, C.

Subjects

PRI Bioscience, Biointeracties and Plant Health, PRI Biointeractions en Plantgezondheid, Life Science

Published

2005

6. Toepassingen van het pUMA systeem voor detectie van meerdere plantpathogenen in grond, water en lucht via een enkele toets

Author

Bonants, P.J.M., Szemes, M., Speksnijder, A.G.C.L., Zijlstra, C., and Schoen, C.D.

Subjects

plant protection, Biointeracties and Plant Health, diagnostic techniques, gewasbescherming, analysis, assays, detectie, polymerase chain reaction, detection, analyse, pathogens, plant pathogens, analytische methoden, analytical methods, plantenziekteverwekkers, PRI Biointeractions en Plantgezondheid, pathogenen, polymerase-kettingreactie, oligopeptiden, plantenziekten, diagnostische technieken, oligopeptides, plant diseases

Abstract

Met de nieuwe pUMA techniek (padlock based Universal Multiplex detection Array techniek) kunnen zes pathogenen in een monster simultaan worden gedetecteerd.

Published

2005