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Characterisation of Pectobacterium carotovorum subsp. brasiliense isolates causing blackleg and soft rot diseases of potato in South AfricaMashavha, Matlou Lebogang January 2013 (has links)
Pectobacterium carotovorum subsp. brasiliense (Pcb) is a plant pathogenic bacterium that causes blackleg and tuber soft rot disease of potato worldwide. Pectobacterium spp. are characterized by the secretion of large quantities of plant cell wall degrading enzymes. As the name indicates, Pectobacteria are pectinolytic pathogens, producing enzymes such as pectate lyase, polygalacturonase, and many others that are used to catalyse the breakdown of pectin, the main plant cell wall component. Consequently, virulence of Pectobacteria is highly reliant upon the production and secretion of macerating enzymes. Hence these bacteria are also referred to as “brute-force” pathogens. Infection and disease symptoms on plants commonly result in the development of blackleg disease, a characteristic black-like decay extending on the stems of infected potato plants. Furthermore, the infection of tubers results in the development of soft rot disease. Pcb is of particular interest in that among Pectobacterium spp. such as Pectobacterium atrosepticum (Pa), P. carotovorum subsp. carotovorum (Pcc), and P. wasabiae, Pcb strains are reported to be the most aggressive and virulent pathogens causing blackleg and soft rot disease of potato in many growing regions across the world. The fact that strains of Pcb were recently reported and isolated in South Africa has necessitated that this work be undertaken in order to characterise this newly described important pathogen of potato in regard to its phenotypic, genetic diversity, virulence and host range traits. Therefore in this work Pcb strains were subjected to multilocus phylogenetic analyses (MLSA) in order to investigate and determine whether there is any interspecies and intraspecies genetic diversity among the South African Pcb isolates. It was thus established that there is a significant genetic diversity that exists both on an interspecies and intraspecies level among Pcb isolates. As a result we sought to investigate further if the level of genetic diversity observed can be reflected in terms of the pathogen’s virulence, biochemical, phenotypic as well as host range characteristics. The results of virulence assays on potato tubers and stems indicated that Pcb strains are significantly much more virulent on potato compared to closely related Pectobacterium spp. such as Pa and Pcc. Moreover, the level of intraspecies diversity observed through phylogeny was also evident and reflected on the phenotypic, virulence and host range characteristics of the pathogen. This study also focused on investigating virulence factors employed by Pectobacterium spp. during infection. Such factors include the ability to produce and secrete of various extracellular macerating enzymes, as well as screening for the presence of virulence associated effectors and phytotoxin genes. It was of interest to observe that Pcb strains have the ability to grow and produce substrate-degrading enzymes much more rapidly compared to Pa and Pcc. This phenomenon was also observed in virulence assays where Pcb strains were noted to cause more rapid and most severe maceration symptoms on potato tubers and stems. Thus in agreement with other studies, our results suggests that Pcb is a uniquely sophisticated but diverse plant pathogen which can be considered to be one of the most aggressive causal agents of blackleg and soft rot disease of potato in South Africa. / Dissertation (MSc)--University of Pretoria, 2013. / gm2014 / Microbiology and Plant Pathology / Unrestricted
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Genetical and Clinical Studies in Wilson's DiseaseWaldenström, Erik January 2007 (has links)
<p>Wilson’s disease is a rare inborn error of metabolism caused by a defect in ATP7B, a protein necessary for proper copper excretion into bile. It is characterised by copper accumulation with hepatic and central nervous system dysfunction.</p><p>We investigated 24 Swedish families with Wilson’s disease by sequencing the entire coding sequence using a new technique called manifold sequencing. Disease causing mutations were found in 44 out of 48 alleles.</p><p>From data obtained in the first study, the two most common mutations (C3207A and C2930T) were sought in 2640 anonymous DNA samples from a Swedish population, using a pooling strategy and solid-phase minisequencing. Four C3207A and one C2930T were found. From the number of C3207A, a prevalence of Wilson’s disease in Sweden of about 1 in 110,000 could be estimated.</p><p>Four groups with three patients each had four different genotypes concerning mutations in ATP7B. The patients’ psychopathological symptoms were investigated, using the Karolinska Scales of Personality rating (KSP) and Comprehensive Psychopathological Rating Scale (CPRS). A trend towards lower CPRS scores was seen in the groups with mutations known to render ATP7B completely without activity.</p><p>Using <sup>61</sup>Cu liver PET in patients homozygous for mutations in ATP7B, heterozygotes, normal individuals and two patients with alcoholic liver cirrhosis, significantly slower uptake was seen in the homozygotes as compared to the heterozygotes and normal individuals. The patients with cirrhosis had values in between. This implies that <sup>61</sup>Cu liver PET might be used as an additional rapid and little invasive diagnostic tool in Wilson’s disease.</p><p>In a retrospectively studied cohort consisting of 363 patients followed in Sweden and the UK, nine cases of aggressive intra-abdominal malignancies were seen, which is more than expected. Caution should be taken in the follow-up of Wilson’s disease patients.</p>
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Genetical and Clinical Studies in Wilson's DiseaseWaldenström, Erik January 2007 (has links)
Wilson’s disease is a rare inborn error of metabolism caused by a defect in ATP7B, a protein necessary for proper copper excretion into bile. It is characterised by copper accumulation with hepatic and central nervous system dysfunction. We investigated 24 Swedish families with Wilson’s disease by sequencing the entire coding sequence using a new technique called manifold sequencing. Disease causing mutations were found in 44 out of 48 alleles. From data obtained in the first study, the two most common mutations (C3207A and C2930T) were sought in 2640 anonymous DNA samples from a Swedish population, using a pooling strategy and solid-phase minisequencing. Four C3207A and one C2930T were found. From the number of C3207A, a prevalence of Wilson’s disease in Sweden of about 1 in 110,000 could be estimated. Four groups with three patients each had four different genotypes concerning mutations in ATP7B. The patients’ psychopathological symptoms were investigated, using the Karolinska Scales of Personality rating (KSP) and Comprehensive Psychopathological Rating Scale (CPRS). A trend towards lower CPRS scores was seen in the groups with mutations known to render ATP7B completely without activity. Using 61Cu liver PET in patients homozygous for mutations in ATP7B, heterozygotes, normal individuals and two patients with alcoholic liver cirrhosis, significantly slower uptake was seen in the homozygotes as compared to the heterozygotes and normal individuals. The patients with cirrhosis had values in between. This implies that 61Cu liver PET might be used as an additional rapid and little invasive diagnostic tool in Wilson’s disease. In a retrospectively studied cohort consisting of 363 patients followed in Sweden and the UK, nine cases of aggressive intra-abdominal malignancies were seen, which is more than expected. Caution should be taken in the follow-up of Wilson’s disease patients.
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Virologische Untersuchungen an Stieleichen (Quercus robur L.) zum verursachenden Pathogen der pfropfübertragbaren chlorotischen RingfleckenHahn, Sabine 07 April 2006 (has links)
Regelmäßige Bonituren haben gezeigt, dass virusverdächtige Symptome an Stieleichen, die zu etwa 90 % als chlorotische Ringflecken auftreten, im nord- und mitteldeutschen Raum weit verbreitet sind. In der vorliegenden Arbeit sollte der Erreger dieser Symptome isoliert und näher charakterisiert werden. Aus zwei Blattproben mit chlorotischen Ringflecken konnten stäbchenförmige Viruspartikeln mit einer Länge von ca. 450 nm isoliert und auf krautige Indikatoren übertragen werden. In einer RT-PCR mit Hüllprotein bzw. Transportprotein-sequenzspezifischen Primern wurden diese als Tobacco mosaic virus (TMV)- bzw. Tomato mosaic virus (ToMV)- Isolate identifiziert. Eine Infektion der Stieleichen mit weiteren bekannten Viren von Gehölzen, wie dem Cherry leaf roll virus (CLRV) oder dem Erreger der Ebereschenringfleckigkeit konnte mittels ELISA und RT-PCR ausgeschlossen werden. DsRNAs der Größen 1.5 und 1.6 kb sowie 1.8 und 2.0 kb konnten symptomunabhängig aus Rindengewebe, Knospen und Blättern von Stieleichen isoliert werden. Mit Hilfe der RT-DOP-PCR und der cDNA-Klonierung gelang es, Teile des 1.5/1.6 kb dsRNA-Moleküls zu charakterisieren. Die Sequenz von 479 Aminosäuren (1437 Nukleotiden) wies eine Identität von 56 % zur RNA-abhängigen RNA-Polymerase (RdRp) des Beet cryptic virus 3 (BCV 3) auf. Der spezifische Nachweis dieser Sequenz gelang mittels RT-PCR sowohl in dsRNA-Proben, als auch in angereicherten Nukleokapsiden symptomloser und symptomatischer Stieleichen. In Nested-PCR-Analysen konnte das Fragment jedoch nicht nur in Gesamt-RNA von Stieleichen, sondern auch in Gesamt-RNA und DNA verschiedenster gesunder Pflanzen amplifiziert werden. Phylogenetische Vergleiche mit ausgewählten RdRps viralen und pflanzlichen Ursprungs zeigten die engste Verwandtschaft der Stieleichen-dsRNA-Sequenz zu den Partitiviren, zu denen sich neben BCV 3 auch die endogene dsRNA aus Pyrus und aus Chloroplasten von Bryopsis gruppiert. Diese Erkenntnisse lassen in der charakteristischen Doppelbande von 1.5/1.6 kb das Vorliegen einer endogenen dsRNA vermuten. Hiermit ist in dieser Arbeit das Auftreten verschiedener Viren in Eichen nachgewiesen worden, von denen die meisten höchstwahrscheinlich nicht im direkten ursächlichen Zusammenhang mit der chlorotischen Ringfleckigkeit der Eiche stehen. / Ratings of oak populations revealed that around 90 % of all oak trees affected by viruslike symptoms showed chlorotic ringspots and that these symptoms are widely spread in oaks in north and central Germany. In this study the putative agent of these symptoms should be isolated and specified. Rod-shaped particles with a length of 450 nm were recovered from two different samples of leaves displaying chlorotic ringspots by mechanical inoculation of herbaceous indicator plants. These particles were identified to be Tobacco mosaic virus (TMV)- and Tomato mosaic virus (ToMV)- isolates by RT-PCR analyses of the coat- and movement protein genes. Infections with other well known viruses of forest trees, like Cherry leaf roll virus (CLRV) and the agent causing ringspots in European mountain ash, were excluded by ELISA and RT-PCR. DsRNA fragments of 1.5 and 1.6 kb as well as 1.8 and 2.0 kb were extracted from leaves, inner bark and bulbs of all symptomatic and asymptomatic samples of common oak. The nucleotide sequence of the 1.5 and 1.6 kb dsRNA fragment was partially characterised by reverse transcription degenerated oligonucleotide primed (DOP)-PCR and cDNA cloning. The obtained nucleotide sequence of 1437 nt encoding a putative protein of 479 amino acids revealed an identity of 56 % with the RNA-dependent RNA polymerase (RdRp) of Beet cryptic virus 3 (BCV 3). PCR amplification of the RdRp coding nucleotide sequence was possible using a number of different dsRNA samples as well as concentrated nucleocapside preparations. The same sequence was also amplified successfully by Nested-PCR not only in total RNA extracted from symptomatic and asymptomatic oak samples but also from total RNA and DNA of diverse plants. Phylogenetic analysis revealed further similarities to RdRp´s of endogenous dsRNA of Pyrus and chloroplasts of Bryopsis, both members of the Partitiviridae as well as BCV 3. These results strongly indicate that the 1.5/1.6 kb dsRNA of oak is endogenous dsRNA. In summary, it has been shown that oaks in Germany are commonly infected by a variety of different viruses most of them possibly unrelated to the wide-spread ringspot symptoms of oaks.
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