Aspectos da interacção entre Phytophthora cinnamomi e a doença do declínio em Q. suber e Q. rotundifolia

Faculdade de Engenharia de Recursos Naturais, Univ. do Algarve, 2001

Análise da virulência de isolados de Phytophthora infestans provenientes de batata do sul do Brasil.

2015

Efeito do potássio no controle de Phytophthora spp. em seringueira.

1989

Reação de genótipos de abóbora a Phytophthora capsici.

O objetivo deste trabalho foi avaliar a reação de 24 genótipos de abóbora (acessos, linhagens e cultivares comerciais) à P. capsici.

Fontes de resistência à Phytophthora sojae em linhagens de soja da Embrapa Trigo.

2016

Endophytic Colonization of Potato (Solanum tuberosum L.) by a Novel Competent Bacterial Endophyte, Pseudomonas putida Strain P9, and Its Effect on Associated Bacterial Communities

Pseudomonas putida strain P9 is a novel competent endophyte from potato. P9 causes cultivar-dependent suppression of Phytophthora infestans. Colonization of the rhizoplane and endosphere of potato plants by P9 and its rifampin-resistant derivative P9R was studied. The purposes of this work were to follow the fate of P9 inside growing potato plants and to establish its effect on associated microbial communities. The effects of P9 and P9R inoculation were studied in two separate experiments. The roots of transplants of three different cultivars of potato were dipped in suspensions of P9 or P9R cells, and the plants were planted in soil. The fate of both strains was followed by examining colony growth and by performing PCR-denaturing gradient gel electrophoresis (PCR-DGGE). Colonies of both strains were recovered from rhizoplane and endosphere samples of all three cultivars at two growth stages. A conspicuous band, representing P9 and P9R, was found in all Pseudomonas PCR-DGGE fingerprints for treated plants. The numbers of P9R CFU and the P9R-specific band intensities for the different replicate samples were positively correlated, as determined by linear regression analysis. The effects of plant growth stage, genotype, and the presence of P9R on associated microbial communities were examined by multivariate and unweighted-pair group method with arithmetic mean cluster analyses of PCR-DGGE fingerprints. The presence of strain P9R had an effect on bacterial groups identified as Pseudomonas azotoformans, Pseudomonas veronii, and Pseudomonas syringae. In conclusion, strain P9 is an avid colonizer of potato plants, competing with microbial populations indigenous to the potato phytosphere. Bacterization with a biocontrol agent has an important and previously unexplored effect on plant-associated communities.

Genetic Transformation of Passionflower and Evaluation of R(1) and R(2) Generations for Resistance to Cowpea aphid borne mosaic virus

We report on the production and evaluation of passionflower transgenic lines for resistance to Cowpea aphid borne mosaic virus (CABMV). Genetic transformation was done using Agrobacterium tumefaciens and transgene integration was confirmed by Southern blot analyses, resulting in nine transgenic lines for `IAC 275` and three for `IAC 277`. Transgenic lines were clonally propagated and evaluated for resistance to CABMV After the third inoculation, under higher inoculum pressure, only propagated plants of the transgenic line T16 remained asymptomatic, indicating a high resistance to infection with CABMV. This transgenic line was self-pollinated and the RI generation was evaluated together with the RI generation of another resistant transgenic line (T2) identified previously. Plants were inoculated with CABMV by means of viruliferous Myzus nicotianae. All 524 T2R(1) plants became infected, whereas 13 of 279 T16R(1) remained asymptomatic after four successive inoculations. A TI6R(2) generation was obtained and plants were inoculated with CABMV mechanically or by aphids. After successive inoculations, 118 of 258 plants were symptomless, suggesting that the resistance to CABMV was maintained in the plant genome as the homozygous condition was achieved. Five selected resistant TI6R(2) plants which contained the capsid protein gene are being crossed for further analyses.

Pathogens associated with nursery plants imported into Western Australia

A small survey of the potting mix taken from 15 consignments of nursery grown plants imported into Western Australia from other states in Australia found that Phytophthora spp. were present in 10% of the samples and Pythium spp. were present in 25% of the samples. Plant pathogenic nematodes were isolated from 12 of 13 consignments. Potting mix appears to be an important route by which plant pathogens can be passively introduced into Western Australia.

Lucerne biology and genetic improvement - an analysis of past activities and future goals in Australia

Breeding methodologies for cultivated lucerne (Medicago sativa L.), an autotetraploid, have changed little over the last 50 years, with reliance on polycross methods and recurrent phenotypic selection. There has been, however, an increase in our understanding of lucerne biology, in particular the genetic relationships between members of the M. sativa complex, as deduced by DNA analysis. Also, the differences in breeding behaviour and vigour of diploids versus autotetraploids, and the underlying genetic causes, are discussed in relation to lucerne improvement. Medicago falcata, a member of the M. sativa complex, has contributed substantially to lucerne improvement in North America, and its diverse genetics would appear to have been under-utilised in Australian programs over the last two decades, despite the reduced need for tolerance to freezing injury in Australian environments. Breeding of lucerne in Australia only commenced on a large scale in 1977, driven by an urgent need to introgress aphid resistance into adapted backgrounds. The release in the early 1980s of lucernes with multiple pest and disease resistance (aphids, Phytophthora, Colletotrichum) had a significant effect on increasing lucerne productivity and persistence in eastern Australia, with yield increases under high disease pressure of up to 300% being recorded over the predominant Australian cultivar, up to 1977, Hunter River. Since that period, irrigated lucerne yields have plateaued, highlighting the need to identify breeding objectives, technologies, and the germplasm that will create new opportunities for increasing performance. This review discusses major goals for lucerne improvement programs in Australia, and provides indications of the germplasm sources and technologies that are likely to deliver the desired outcomes.

Estudios etiológicos de la marchitez del aguacate en Antioquia-Colombia

El cultivo de aguacate en Colombia ha presentado un incremento en el área sembrada durante la última década, especialmente en clima frío moderado, entre 1.800 y 2.500 msnm. La variedad Hass se destaca por tener la mayor área sembrada en este clima, en el departamento de Antioquia-Colombia. Este cultivo presenta grandes retos tecnológicos para su expansión; entre ellos el manejo de enfermedades ocupa un lugar predominante por las implicaciones que tiene en costos, impacto en la salud, ambiente y restricciones para exportaciones. La marchitez, ocasiona la muerte de numerosos árboles en todas las etapas del cultivo y presenta la mayor incidencia y severidad de las enfermedades identificadas para este cultivo. El desconocimiento de los agentes causales de esta enfermedad, ha llevado a realizar prácticas de manejo encaminadas principalmente al control del oomycete Phytophthora cinnamomi Rands, como único agente causal. Esta investigación tuvo como objetivo identificar los distintos agentes causales de la marchitez del aguacate y la relación de su incidencia con las prácticas de manejo en lotes cultivados en el departamento de Antioquia-Colombia. Los resultados encontrados muestran que la marchitez es el principal problema del cultivo de aguacate. Los microorganismos P. cinnamomi, Phytophthora heveae Thompson, Phytophthora citrícola Sawada, Verticillium sp., y Cylindrocarpon destructans (Zinss) Scholten fueron aislados y reprodujeron los síntomas asociados a marchitez. Las condiciones de bajo contenido de oxigeno el suelo también reprodujeron la sintomatología de marchitez, involucrando también un origen abiótico en la etiología.

Charakterisierung und funktionelle Analyse eines ABC-Promotors aus Solanum tuberosum

Pflanzen können Pathogene anhand von PAMPs erkennen und komplexe Abwehrmechanismen aktivieren, die zur Ausprägung der PTI führen. In der vorliegenden Arbeit wurden PAMP-induzierte Abwehrreaktionen zwischen Solanum tuberosum und Phytophthora infestans untersucht. Der Oomycet P. infestans ist der Erreger der Kraut- und Knolenfäule, der wichtigsten und wirtschaftlich bedeutendsten Krankheit der Kartoffel. Die Behandlung der anfälligen Sorte Désirée mit dem Phytophthora-spezifischen PAMP Pep-13 führt zu einer starken lokalen Abwehrantwort, die zu einer systemischen Resistenz führt. In Microarray-Analysen wurden mehr als 700 Gene identifiziert, die durch Pep-13 aktiviert werden. Der Promotor eines dieser Gene, das für einen ABCG-Halb-Transporter kodiert, sollte im Rahmen der Arbeit charakterisiert und auf seine Aktivität untersucht werden. Zunächst wurde eine ~2 kb große Promotor-Region des ABC-Transporters aus S. tuberosum (StpABC) kloniert und mehrere Klone sequenziert. Dabei konnte eine Sequenzhomologie von 94% zum nicht annotierten Kartoffelgenom von Solanum phurejia festgestellt werden. Zur weiteren Charakterisierung der StpABC-Region wurde eine in silico Sequenzanalyse durchgeführt. Dabei wurden zahlreiche mögliche cis-regulatorische Elemente einer Kernpromotor-Sequenz, sowie TFBS zur Regulation von Stress-, Licht- und Pathogen-induzierten Genen lokalisiert. Eine Eingrenzung der aktiven Promotor-Region (< 2012 Bp) konnte damit nicht erzielt werden. Die Erstellung von sGFP- und GUS- Reportergen-Konstrukten mit der StpABC-Region und die Generierung transgener Pflanzen ermöglichte eine funktionelle Analyse. (...)

Charakterisierung von Kartoffelpflanzen mit reduzierter THT-Genexpression

Diese Masterarbeit wurde im Verlauf des Sommersemesters 2014 am Leibniz Institut für Pflanzenbiochemie (IPB) in Halle angefertigt. Gegenstand dabei war die Charakterisierung von Kartoffelpflanzen (Solanum tuberosum cv Désirée), welche durch RNA-Interferenz reduzierte Mengen der Tyramin-Hydroxyzimtsäure-Transferase (THT) besaßen. Durch Southern- und Northern-Blot-Analysen wurden die korrekte Insertion als auch der RNAi-Effekt überprüft und bestätigt. Infizierte Blätter und die dazugehörenden Infektionstropfen wurden in Methanol gelöst und massenspektrometrisch nachgewiesen. Darauf aufbauend wurde das Wachstum von Phytophthora infestans auf transformierten Linien untersucht, wobei dessen Biomasse nach 3-tägiger Infektion durch qPCR bestimmt wurde. Während der Betreuung der transformierten Linien in Sterilkultur wurde ein Phänotyp ersichtlich. Nach Dokumentation der äußeren Erscheinungen und nach Prüfung auf Einfluss von Pathogenen, wurden diese Pflanzen für Knollenversuche im Gewächshaus ausgepflanzt und analysiert. Zuletzt wurde die Sequenz von THT analysiert und kloniert, woraufhin drei Fragmente generiert wurden, welche für weitere Versuche genutzt werden können.

Divinyl ether fatty acid synthesis in late blight-diseased potato leaves.

We conducted a study of the patterns and dynamics of oxidized fatty acid derivatives (oxylipins) in potato leaves infected with the late-blight pathogen Phytophthora infestans. Two 18-carbon divinyl ether fatty acids, colneleic acid and colnelenic acid, accumulated during disease development. To date, there are no reports that such compounds have been detected in higher plants. The divinyl ether fatty acids accumulate more rapidly in potato cultivar Matilda (a cultivar with increased resistance to late blight) than in cultivar Bintje, a susceptible cultivar. Colnelenic acid reached levels of up to approximately 24 nmol (7 microgram) per g fresh weight of tissue in infected leaves. By contrast, levels of members of the jasmonic acid family did not change significantly during pathogenesis. The divinyl ethers also accumulated during the incompatible interaction of tobacco with tobacco mosaic virus. Colneleic and colnelenic acids were found to be inhibitory to P. infestans, suggesting a function in plant defense for divinyl ethers, which are unstable compounds rarely encountered in biological systems.

Patterns of plant subcellular responses to successful oomycete infections reveal differences in host cell reprogramming and endocytic trafficking.

Adapted filamentous pathogens such as the oomycetes Hyaloperonospora arabidopsidis (Hpa) and Phytophthora infestans (Pi) project specialized hyphae, the haustoria, inside living host cells for the suppression of host defence and acquisition of nutrients. Accommodation of haustoria requires reorganization of the host cell and the biogenesis of a novel host cell membrane, the extrahaustorial membrane (EHM), which envelops the haustorium separating the host cell from the pathogen. Here, we applied live-cell imaging of fluorescent-tagged proteins labelling a variety of membrane compartments and investigated the subcellular changes associated with accommodating oomycete haustoria in Arabidopsis and N. benthamiana. Plasma membrane-resident proteins differentially localized to the EHM. Likewise, secretory vesicles and endosomal compartments surrounded Hpa and Pi haustoria revealing differences between these two oomycetes, and suggesting a role for vesicle trafficking pathways for the pathogen-controlled biogenesis of the EHM. The latter is supported by enhanced susceptibility of mutants in endosome-mediated trafficking regulators. These observations point at host subcellular defences and specialization of the EHM in a pathogen-specific manner. Defence-associated haustorial encasements, a double-layered membrane that grows around mature haustoria, were frequently observed in Hpa interactions. Intriguingly, all tested plant proteins accumulated at Hpa haustorial encasements suggesting the general recruitment of default vesicle trafficking pathways to defend pathogen access. Altogether, our results show common requirements of subcellular changes associated with oomycete biotrophy, and highlight differences between two oomycete pathogens in reprogramming host cell vesicle trafficking for haustoria accommodation. This provides a framework for further dissection of the pathogen-triggered reprogramming of host subcellular changes.

Managing Soybean Cyst Nematode, 2007

Soybean cyst nematode (SCN) causes the greatest yield loss of any single pathogen of soybean in Iowa. An estimated 50 million bushels were lost in Iowa to SCN in 2004. Damage from SCN is not limited to yield loss from root feeding; SCN also makes other diseases like sudden death syndrome, iron deficiency chlorosis, Pythium, Phytophthora root and stem rot and brown stem rot worse. Once established in a field, SCN cannot be eradicated. However, the use of multiple management tactics can help minimize yield loss.