Studies on the use of biocontrol agents and soluble silicon against powdery mildew of zucchini and zinnia /

Tesfagiorgis, Habtom Butsuamlak.

January 2008

Thesis (Ph.D.) - University of KwaZulu-Natal, Pietermaritzburg, 2008. / Full text also available online. Scroll down for electronic link.

Developing Integrated Pest Management Tactics for Squash Vine Borer

McFarland, Michael C.

24 May 2017

No description available.

Entomology

squash vine borer

zucchini

bioassay

IPM

garden

trap crop

row cover

squash

entomology

integrated pest management

insecticides

bioassay

chemical

Caracterização biológica, sorológica e molecular de isolados brasileiros do vírus do mosaico amarelo da abobrinha / Biological, serological and molecular characterization of Brazilian isolates of Zucchini yellow mosaic virus

Spadotti, David Marques de Almeida

23 November 2012

O vírus do mosaico amarelo da abobrinha (Zucchini yellow mosaic virus - ZYMV) é provavelmente um dos mais dinâmicos e prejudiciais vírus emergentes de plantas. Desde sua primeira detecção na Itália e na França em 1973 e 1979, respectivamente, o ZYMV tem sido reportado em mais de 50 países variando de condições climáticas tropicais a temperadas em todos os continentes, exceto na Antártida. No Brasil esse potyvirus foi constatado primeiramente nos Estados de São Paulo e Santa Catarina, no início da década de 90 e posteriormente nos Estados do Ceará, da Bahia, do Rio Grande do Norte, do Pará, do Mato Grosso do Sul e do Maranhão. É provável que atualmente ocorra em todos os estados brasileiros onde se cultivam cucurbitáceas. Embora ocorra no Brasil há mais de 20 anos, pouco se conhece sobre as características biológicas, sorológicas e moleculares dos isolados até então encontrados no país. Esse projeto de pesquisa teve por objetivo cobrir parcialmente essa lacuna para fornecer subsídios para programas de melhoramento genético. Foram utilizados 11 isolados coletados em diversos estados brasileiros. A caracterização biológica consistiu no estudo da reação de diversas espécies vegetais inoculadas mecanicamente. A caracterização sorológico consistiu na marcação da proteína capsidial dos isolados com o antissoro policlonal contra o vírus. A caracterização molecular foi feita por meio da análise das sequências de nucleotídeos e aminoácidos deduzidos do gene da proteína capsidial dos isolados. A reação das espécies variou de acordo com o isolado inoculado. Análises de RFLP mostraram que a enzima de restrição Hpa II permitiu diferenciar o isolado fraco ZYMV-M da maioria dos isolados severos. O peso molecular da proteína capsidial dos isolados analisados foi em torno de 36 KDa, típico da proteína capsidial desse potyvirus. A identidade de nucleotídeos do gene da proteína capsidial entre os isolados brasileiros do ZYMV variou de 93% a 100% e a de aminoácidos deduzidos variou de 97% a 100%. Comparados com as sequências correspondentes de isolados do ZYMV de diferentes origens geográficas a identidade de nucleotídeos variou de 82% a 99%, enquanto a de aminoácidos deduzidos ficou entre 87% e 99%. Na árvore filogenética os isolados brasileiros do ZYMV pertencem ao grupo A, subdivisões I ou II, indicando uma variação entre os isolados. Nenhum evento de recombinação foi detectado nos isolados brasileiros. / Zucchini yellow mosaic virus (ZYMV) is probably one of the most dynamics and economically important emerging plant viruses. Since it was first report in Italy and France in 1973 and 1979, respectively, ZYMV has been found in over than 50 countries ranging from tropical to temperate climate conditions in all continents, except in Antartida. In Brazil this potyvirus was first reported in the beginning of 90´s in São Paulo and Santa Catarina States, and then in Ceará, Bahia, Rio Grande do Norte, Pará, Mato Grosso do Sul and Maranhão states. Probably it occurs in all Brazilian states which grow cucurbit species. Although ZYMV occurs in Brazil for more than 20 years, there is little information about the biological, serological and molecular characteristics for the isolates found in the country. The purpose of this work was to cover partially this gap to provide subsidies for genetic breeding programs. Eleven isolates collected in several Brazilian states were used. The biological characterization consisted in the study of the reaction of several vegetal species mechanically inoculated with the virus. The serological characterization consisted in the identification of the molecular weight of the coat protein through western blot analysis. The molecular characterization was done by the analyses of nucleotides and deduced amino acids sequences for the coat protein gene. The host reaction showed slight variation according to the virus. RFLP analyses showed that restriction enzyme HpaII allowed differentiate the mild ZYMV-M isolate from the majority of severe isolates. The coat protein molecular weight for all studied isolates was about 36 KDa, typical of the coat protein of this potyvirus. The nucleotide identity of the coat protein gene among the ZYMV Brazilian isolates ranged from 93% to 100%, and the deduced amino acids sequences ranged from 97% to 100%. Compared to corresponding sequences of ZYMV isolates from different geographical locations the nucleotide sequences identity ranged from 82% to 99%, while the deduced amino acids sequences ranged from 87% to 99%. Phylogenetic analysis place the Brazilian isolates of ZYMV into the group A, subdivision I or II, showing some diversity between the isolates. No recombination event was detected in the Brazilian isolates.

Abobrinha

DNA sequence

ELISA

ELISA

Marcador molecular

Molecular marker

Mosaic - Plant disease

Mosaico - Doença de planta

Plant virus

Potyvirus

Potyvirus

Sequência do DNA

Vírus de plantas

Zucchini squash

Epidemiologia comparativa de três viroses em abobrinha de moita (Cucurbita pepo L.) / Comparative epidemiology of three viruses on zucchini squash (Cucurbita pepo L.)

Moreira, Alécio Souza

27 January 2011

A abobrinha de moita (Cucurbita pepo L.), espécie pertencente à família Cucurbitaceae, apresenta significativa participação na produção mundial e brasileira desta família de plantas. Porém, como em toda cultura de importância econômica, as cucurbitáceas apresentam problemas fitossanitários causados por diferentes agentes etiológicos. Na produção brasileira de abóboras, já foi constatada a presença de 8 vírus, dentre eles os potyvirus PRSV-W (Papaya ringspot virus-type W) e ZYMV (Zucchini yellow mosaic virus) e o tospovirus ZLCV (Zucchini lethal chlorosis virus) têm sido considerados os mais importantes pela predominância em diversas regiões produtoras de cucurbitáceas no país e pelos consideráveis prejuízos que geralmente causam à produção. Considerando que a maioria dos estudos epidemiológicos existentes sobre estas três viroses são poucos e fragmentados, percebe-se que não há estudos que abordam em conjunto todos os parâmetros epidemiológicos de tais vírus. Assim, os objetivos deste trabalho foram estudar o progresso temporal e espacial destas três viroses e verificar a relação entre a epidemiologia das mesmas em campo de abobrinha de moita, além de melhor entender o patossistema em que a clorose letal (causada pelo ZLCV) está inserida Para isso, foram conduzidos experimentos com abobrinha de moita Caserta nos campos experimentais dos Departamentos de Fitopatologia e Nematologia (DFN) e Departamento de Genética (DGN) da Esalq/USP. Primeiramente foram conduzidos em 2009 dois experimentos simultâneos nas áreas do DFN e DGN para estudar a epidemiologia isolada da clorose letal acompanhada da dinâmica populacional do tripes Frankliniella zucchini, vetor deste vírus. Em seguida, em épocas diferentes 3 experimentos foram conduzidos em 2010 com o intuito de comparar as epidemiologias da clorose letal e dos mosaicos comum e amarelo, estes últimos causados por PRSV-W e ZYMV, respectivamente. Nos experimentos apenas com a clorose letal no ano de 2009, o modelo monomolecular foi o que melhor se ajustou aos dados de incidência e através das análises espaciais detectou-se agregação da doença ao final dos dois experimentos. Nos 3 experimentos realizados em 2010, variações na incidência, no ajuste do modelo e no comportamento espacial de cada virose foram freqüentes. Para a clorose letal, o modelo monomolecular ofereceu melhor ajuste apenas na 3ª época de plantio. Nas duas primeiras o modelo gompertz apresentou maior coeficiente de determinação. No comportamento espacial, novamente agregação da doença foi detectada ao final do ciclo da cultura. Para o mosaico amarelo, os modelos que melhores se ajustaram na 1ª, 2ª e 3ª épocas de plantio, foram o logístico e o monomolecular (este nas duas últimas), respectivamente. O padrão espacial desta doença foi ao acaso quando da baixa incidência da doença e agregado nos casos em que elevada incidência ocorreu. Já o mosaico comum apresentou a menor incidência nas 3 épocas. O modelo logístico foi o que melhor se ajustou em todas as épocas e a doença apresentou comportamento espacial ao acaso nos três experimentos. Nos levantamentos do tripes vetor do ZLCV, verificou-se preferência do mesmo por plantas sintomáticas e consideráveis correlações do número de insetos coletados com a incidência da clorose letal. / The zucchini squash (Cucurbita pepo L.) belonging to the Cucurbitaceae family, has a good share of world and brazilian output. However, as in every plants of economically important, cucurbits have problems caused by different etiological agents. In the Brazilian production of zucchini squash, already confirmed the presence of 8 viruses, including the potyviruses PRSV-W (Papaya ringspot virus-type W) and ZYMV (Zucchini yellow mosaic virus) and the tospovirus ZLCV (Zucchini lethal chlorosis virus) have been considered the most important viruses by the predominance in several cucurbits producing regions in the Brazil and the considerable damage on production. Whereas the most of the existing epidemiological studies about these three viruses are few and fragmented, it is clear that there are no studies that deal together all the epidemiological parameters of such viruses. The objectives of this work were to study the temporal and spatial progress of these three viruses and the relation between the epidemiology of these viruses in the same field of zucchini squash in addition to better understand the lethal chlorosis pathosystem (caused by ZLCV). Trials were carried out with zucchini squash \'Caserta in the experimental fields of the Departments of Plant Pathology and Nematology (DPP) and Department of Genetics (DGN) at Esalq/USP. The firsts were conducted in 2009 simultaneously in DPP and DGN to study the epidemiology of lethal chlorosis only and to study the population dynamic of thrips Frankliniella zucchini, the vector of this virus. In 2010 three experiments were carried out in different growing seasons in order to compare the epidemiology of the lethal chlorosis, yellow mosaic and common mosaic caused by ZLCV, PRSV-W and ZYMV, respectively. In the experiments with the lethal chlorosis in 2009, the monomolecular model was the best fit to the incidence data and spatial analysis indicated aggregation of the disease at the end of both experiments. In three experiments carried out in 2010, variations in incidence, in the fit of the model and in the spatial distribution of each virus were frequents. For lethal chlorosis, the monomolecular model provided a better fit only in the 3rd growing season. In the first and second growing seasons Gompertz model had the best coefficient of determination. In the spatial distribution, aggregation of disease was detected at the end of the crop cycle again. For yellow mosaic, the models that best fit in the 1st, 2nd and 3rd planting dates were the logistic and monomolecular (this in the last two) respectively. The spatial pattern of this disease were randomly when the disease incidence was low and aggregated when the disease incidence was high. The common mosaic had the lowest incidence in all three seasons. The logistic model was the best fit in all growing seasons and the disease showed a spatial random distribuctions in all experiments. The thrips vector of ZLCV prefer symptomatic plants and good correlations between the number of insects collected with the incidence of lethal chlorosis was found.

Abobrinha

Bunyaviridae

Bunyaviridae

Chlorosis

Clorose

Epidemiology.

Mosaic (Plant disease)

Mosaico (Doença de planta)

Plant virus

Potyvirus

Potyvirus

Thrips

Tripes

Virose vegetal - Epidemiologia.

Zucchini squash

Epidemiologia comparativa de três viroses em abobrinha de moita (Cucurbita pepo L.) / Comparative epidemiology of three viruses on zucchini squash (Cucurbita pepo L.)

Alécio Souza Moreira

27 January 2011

A abobrinha de moita (Cucurbita pepo L.), espécie pertencente à família Cucurbitaceae, apresenta significativa participação na produção mundial e brasileira desta família de plantas. Porém, como em toda cultura de importância econômica, as cucurbitáceas apresentam problemas fitossanitários causados por diferentes agentes etiológicos. Na produção brasileira de abóboras, já foi constatada a presença de 8 vírus, dentre eles os potyvirus PRSV-W (Papaya ringspot virus-type W) e ZYMV (Zucchini yellow mosaic virus) e o tospovirus ZLCV (Zucchini lethal chlorosis virus) têm sido considerados os mais importantes pela predominância em diversas regiões produtoras de cucurbitáceas no país e pelos consideráveis prejuízos que geralmente causam à produção. Considerando que a maioria dos estudos epidemiológicos existentes sobre estas três viroses são poucos e fragmentados, percebe-se que não há estudos que abordam em conjunto todos os parâmetros epidemiológicos de tais vírus. Assim, os objetivos deste trabalho foram estudar o progresso temporal e espacial destas três viroses e verificar a relação entre a epidemiologia das mesmas em campo de abobrinha de moita, além de melhor entender o patossistema em que a clorose letal (causada pelo ZLCV) está inserida Para isso, foram conduzidos experimentos com abobrinha de moita Caserta nos campos experimentais dos Departamentos de Fitopatologia e Nematologia (DFN) e Departamento de Genética (DGN) da Esalq/USP. Primeiramente foram conduzidos em 2009 dois experimentos simultâneos nas áreas do DFN e DGN para estudar a epidemiologia isolada da clorose letal acompanhada da dinâmica populacional do tripes Frankliniella zucchini, vetor deste vírus. Em seguida, em épocas diferentes 3 experimentos foram conduzidos em 2010 com o intuito de comparar as epidemiologias da clorose letal e dos mosaicos comum e amarelo, estes últimos causados por PRSV-W e ZYMV, respectivamente. Nos experimentos apenas com a clorose letal no ano de 2009, o modelo monomolecular foi o que melhor se ajustou aos dados de incidência e através das análises espaciais detectou-se agregação da doença ao final dos dois experimentos. Nos 3 experimentos realizados em 2010, variações na incidência, no ajuste do modelo e no comportamento espacial de cada virose foram freqüentes. Para a clorose letal, o modelo monomolecular ofereceu melhor ajuste apenas na 3ª época de plantio. Nas duas primeiras o modelo gompertz apresentou maior coeficiente de determinação. No comportamento espacial, novamente agregação da doença foi detectada ao final do ciclo da cultura. Para o mosaico amarelo, os modelos que melhores se ajustaram na 1ª, 2ª e 3ª épocas de plantio, foram o logístico e o monomolecular (este nas duas últimas), respectivamente. O padrão espacial desta doença foi ao acaso quando da baixa incidência da doença e agregado nos casos em que elevada incidência ocorreu. Já o mosaico comum apresentou a menor incidência nas 3 épocas. O modelo logístico foi o que melhor se ajustou em todas as épocas e a doença apresentou comportamento espacial ao acaso nos três experimentos. Nos levantamentos do tripes vetor do ZLCV, verificou-se preferência do mesmo por plantas sintomáticas e consideráveis correlações do número de insetos coletados com a incidência da clorose letal. / The zucchini squash (Cucurbita pepo L.) belonging to the Cucurbitaceae family, has a good share of world and brazilian output. However, as in every plants of economically important, cucurbits have problems caused by different etiological agents. In the Brazilian production of zucchini squash, already confirmed the presence of 8 viruses, including the potyviruses PRSV-W (Papaya ringspot virus-type W) and ZYMV (Zucchini yellow mosaic virus) and the tospovirus ZLCV (Zucchini lethal chlorosis virus) have been considered the most important viruses by the predominance in several cucurbits producing regions in the Brazil and the considerable damage on production. Whereas the most of the existing epidemiological studies about these three viruses are few and fragmented, it is clear that there are no studies that deal together all the epidemiological parameters of such viruses. The objectives of this work were to study the temporal and spatial progress of these three viruses and the relation between the epidemiology of these viruses in the same field of zucchini squash in addition to better understand the lethal chlorosis pathosystem (caused by ZLCV). Trials were carried out with zucchini squash \'Caserta in the experimental fields of the Departments of Plant Pathology and Nematology (DPP) and Department of Genetics (DGN) at Esalq/USP. The firsts were conducted in 2009 simultaneously in DPP and DGN to study the epidemiology of lethal chlorosis only and to study the population dynamic of thrips Frankliniella zucchini, the vector of this virus. In 2010 three experiments were carried out in different growing seasons in order to compare the epidemiology of the lethal chlorosis, yellow mosaic and common mosaic caused by ZLCV, PRSV-W and ZYMV, respectively. In the experiments with the lethal chlorosis in 2009, the monomolecular model was the best fit to the incidence data and spatial analysis indicated aggregation of the disease at the end of both experiments. In three experiments carried out in 2010, variations in incidence, in the fit of the model and in the spatial distribution of each virus were frequents. For lethal chlorosis, the monomolecular model provided a better fit only in the 3rd growing season. In the first and second growing seasons Gompertz model had the best coefficient of determination. In the spatial distribution, aggregation of disease was detected at the end of the crop cycle again. For yellow mosaic, the models that best fit in the 1st, 2nd and 3rd planting dates were the logistic and monomolecular (this in the last two) respectively. The spatial pattern of this disease were randomly when the disease incidence was low and aggregated when the disease incidence was high. The common mosaic had the lowest incidence in all three seasons. The logistic model was the best fit in all growing seasons and the disease showed a spatial random distribuctions in all experiments. The thrips vector of ZLCV prefer symptomatic plants and good correlations between the number of insects collected with the incidence of lethal chlorosis was found.

Abobrinha

Bunyaviridae

Clorose

Mosaico (Doença de planta)

Potyvirus

Tripes

Virose vegetal - Epidemiologia.

Bunyaviridae

Chlorosis

Epidemiology.

Mosaic (Plant disease)

Plant virus

Potyvirus

Thrips

Zucchini squash

Caracterização biológica, sorológica e molecular de isolados brasileiros do vírus do mosaico amarelo da abobrinha / Biological, serological and molecular characterization of Brazilian isolates of Zucchini yellow mosaic virus

David Marques de Almeida Spadotti

23 November 2012

O vírus do mosaico amarelo da abobrinha (Zucchini yellow mosaic virus - ZYMV) é provavelmente um dos mais dinâmicos e prejudiciais vírus emergentes de plantas. Desde sua primeira detecção na Itália e na França em 1973 e 1979, respectivamente, o ZYMV tem sido reportado em mais de 50 países variando de condições climáticas tropicais a temperadas em todos os continentes, exceto na Antártida. No Brasil esse potyvirus foi constatado primeiramente nos Estados de São Paulo e Santa Catarina, no início da década de 90 e posteriormente nos Estados do Ceará, da Bahia, do Rio Grande do Norte, do Pará, do Mato Grosso do Sul e do Maranhão. É provável que atualmente ocorra em todos os estados brasileiros onde se cultivam cucurbitáceas. Embora ocorra no Brasil há mais de 20 anos, pouco se conhece sobre as características biológicas, sorológicas e moleculares dos isolados até então encontrados no país. Esse projeto de pesquisa teve por objetivo cobrir parcialmente essa lacuna para fornecer subsídios para programas de melhoramento genético. Foram utilizados 11 isolados coletados em diversos estados brasileiros. A caracterização biológica consistiu no estudo da reação de diversas espécies vegetais inoculadas mecanicamente. A caracterização sorológico consistiu na marcação da proteína capsidial dos isolados com o antissoro policlonal contra o vírus. A caracterização molecular foi feita por meio da análise das sequências de nucleotídeos e aminoácidos deduzidos do gene da proteína capsidial dos isolados. A reação das espécies variou de acordo com o isolado inoculado. Análises de RFLP mostraram que a enzima de restrição Hpa II permitiu diferenciar o isolado fraco ZYMV-M da maioria dos isolados severos. O peso molecular da proteína capsidial dos isolados analisados foi em torno de 36 KDa, típico da proteína capsidial desse potyvirus. A identidade de nucleotídeos do gene da proteína capsidial entre os isolados brasileiros do ZYMV variou de 93% a 100% e a de aminoácidos deduzidos variou de 97% a 100%. Comparados com as sequências correspondentes de isolados do ZYMV de diferentes origens geográficas a identidade de nucleotídeos variou de 82% a 99%, enquanto a de aminoácidos deduzidos ficou entre 87% e 99%. Na árvore filogenética os isolados brasileiros do ZYMV pertencem ao grupo A, subdivisões I ou II, indicando uma variação entre os isolados. Nenhum evento de recombinação foi detectado nos isolados brasileiros. / Zucchini yellow mosaic virus (ZYMV) is probably one of the most dynamics and economically important emerging plant viruses. Since it was first report in Italy and France in 1973 and 1979, respectively, ZYMV has been found in over than 50 countries ranging from tropical to temperate climate conditions in all continents, except in Antartida. In Brazil this potyvirus was first reported in the beginning of 90´s in São Paulo and Santa Catarina States, and then in Ceará, Bahia, Rio Grande do Norte, Pará, Mato Grosso do Sul and Maranhão states. Probably it occurs in all Brazilian states which grow cucurbit species. Although ZYMV occurs in Brazil for more than 20 years, there is little information about the biological, serological and molecular characteristics for the isolates found in the country. The purpose of this work was to cover partially this gap to provide subsidies for genetic breeding programs. Eleven isolates collected in several Brazilian states were used. The biological characterization consisted in the study of the reaction of several vegetal species mechanically inoculated with the virus. The serological characterization consisted in the identification of the molecular weight of the coat protein through western blot analysis. The molecular characterization was done by the analyses of nucleotides and deduced amino acids sequences for the coat protein gene. The host reaction showed slight variation according to the virus. RFLP analyses showed that restriction enzyme HpaII allowed differentiate the mild ZYMV-M isolate from the majority of severe isolates. The coat protein molecular weight for all studied isolates was about 36 KDa, typical of the coat protein of this potyvirus. The nucleotide identity of the coat protein gene among the ZYMV Brazilian isolates ranged from 93% to 100%, and the deduced amino acids sequences ranged from 97% to 100%. Compared to corresponding sequences of ZYMV isolates from different geographical locations the nucleotide sequences identity ranged from 82% to 99%, while the deduced amino acids sequences ranged from 87% to 99%. Phylogenetic analysis place the Brazilian isolates of ZYMV into the group A, subdivision I or II, showing some diversity between the isolates. No recombination event was detected in the Brazilian isolates.

Abobrinha

ELISA

Marcador molecular

Mosaico - Doença de planta

Potyvirus

Sequência do DNA

Vírus de plantas

DNA sequence

ELISA

Molecular marker

Mosaic - Plant disease

Plant virus

Potyvirus

Zucchini squash

Caracterização de novos isolados fracos do vírus do mosaico do mamoeiro ocorrendo naturalmente no estado do Espírito Santo; Avaliação da infecção natural de cucurbitáceas com esse vírus; Caracterização de um isolado do mosaico da alfafa infectando mamoeiro (Carica papaya) em campo / Characterization of new mild isolates of papaya ringspot virus naturally occurring in state Espirito Santo state; Evaluation of natural infection of cucurbits with this virus; Characterization of the alfalfa mosaic virus infecting papaya (Carica papaya) in the field

Moreira, Adriana Gonçalves

07 May 2009

No estado do Espírito Santo (ES), uma das principais áreas produtoras de mamão do país, a eliminação sistemática de plantas doentes tem sido aplicada desde a década de 1980 para o controle do mosaico do mamoeiro (Papaya ringspot virus - type P; PRSV-P). O uso permanente dessa prática nos últimos 25 anos levou a uma aparente seleção e predominância de isolados fracos do vírus. Os objetivos deste trabalho foram: investigar a prevalência desses isolados fracos, bem como a estabilidade e o efeito protetor contra isolados severos do vírus; estudar a infecção natural de abobrinha de moita (Cucurbita pepo cv. Caserta) e abóbora moranga (C. maxima cv. Exposição) com o PRSV-P quando plantadas ao lado de mamoeiros infectados e caracterizar um isolado do Alfalfa mosaic virus (AMV) em infecção natural em mamoeiro. A detecção de possíveis isolados fracos do vírus foi realizada por PTAELISA, microscopia eletrônica e RT-PCR. Todos os isolados também foram inoculados mecanicamente em mamoeiro cv. Golden para avaliação de sintomas. Sequências de nucleotídeos e de aminoácidos deduzidos do gene da proteína capsidial de alguns isolados fracos mostraram identidades superiores a 89% e 90%, respectivamente, com isolados do PRSV-P. De 119 amostras de mamoeiros analisadas, 86 estavam infectadas com o PRSV-P, mas somente 75 induziram sintomas fracos em mamoeiros. Quatro isolados fracos foram selecionados ao acaso para estudos de estabilidade, e de proteção em casa de vegetação. Apenas dois isolados fracos induziram sintomas estáveis em mamoeiros até a oitava transferência. A proteção total só foi obtida com plantas premunizadas com dois isolados fracos e desafiados com o isolado PRSV-PES. Plantas de mamoeiros cv. Golden premunizadas com vários isolados fracos do PRSV-P foram expostas em condições de campo na ESALQ/USP, Piracicaba, SP, em dois experimentos independentes. Poucas plantas permaneceram com sintomas fracos de mosaico até o final dos experimentos. Uma terceira exposição foi realizada em Linhares, ES, com mamoeiros cvs. Sunrise Solo e Golden premunizados com oito isolados fracos, coletados nos experimentos em campo na ESALQ/USP. Apenas uma planta premunizada com um isolado fraco permaneceu com sintomas leves da doença até a última avaliação. Tentativas de detectaçao de infecções naturais de cucurbitáceas com o PRSV-P foram realizados em dois plantios de abobrinha de moita e dois de abóbora moranga, na ESALQ/USP, Piracicaba, SP. A detecção do vírus foi feita por meio da inoculação de extratos foliares das cucurbitáceas em mamoeiros cv. Golden. Os mamoerios foram avaliados por meio de sintomas, PTA-ELISA e RT-PCR. Nenhuma planta de mamoeiro inoculada com extratos foliares das duas cucurbitáceas exibiu sintomas de mosaico, embora o gene ci, mas não o cp, tenha sido detectado em uma amostra de folhas de mamoeiro, indicando que ao menos uma planta de abobrinha de moita estava infectada. Finalmente, no decorrer dos ensaios de campo na ESALQ/USP, constatou-se uma planta de mamoeiro apresentando sintomas severos de mosaico amarelo, deformação foliar e necrose sistêmica, diferente daqueles induzidos pelo PRSV-P. Análises biológicas, sorológica e moleculares confirmaram tratar-se do AMV. Este é o primeiro relato de infecção natural de mamoeiro com esse vírus. / Papaya ringspot virus type P (PRSV-P) causes the major disease in Brazilian papaya orchards that result in significant yield losses. In Espírito Santo state systematic rouging of infected plants has been applied since early 1980s for the control of this disease. Its permanent use over the last 25 years has lead to an apparent selection and predominance of mild strains throughout papaya orchards. The objectives of this work were to investigate the prevalence of mild isolates, as well the stability and protective effect against severe isolates of the virus; The aim of this work was to study the natural infecction of zucchini squash (Cucurbita pepo cv. Caserta) and pumpkin (C. maxima cv. Exposição) grown near to papaya trees infected with PRSV-P and characterize an isolate of Alfalfa mosaic virus (AMV) in natural infection in papaya. The detection of possible mild isolates of the virus was performed by PTA-ELISA, electron microscopy and RT-PCR. All isolates were inoculated mechanically in papaya cv. Golden for symptoms evaluation. Nucleotides and deduced amino acids sequences of the coat protein gene of some mild isolates showed identities above 89% and 90%, respectively, with isolates of PRSV-P. Of 119 samples from papaya plants analyzed, 86 were infected with PRSV-P and 75 induced mild symptoms on papaya. Four mild isolates were randomly selected for stability and protection studies under greenhouse. Only two isolates induced mild symptoms on papaya and remained stables until the eighth transference. Full protection was obtained with preimmunized plants with two mild isolates and challenged with the isolate PRSV-P-ES. Plants of papaya cv. Golden preimmunized with several mild isolates of PRSV-P were exposed under field conditions at ESALQ/USP, Piracicaba,SP, in two independent experiments. Few plants remained with mild mosaic symptoms at the end of the experiments. A third field exposition was held in Linhares,ES, with papaya cvs. Golden and Sunrise Solo preimmunized with eight mild isolates, collected in field experiments at ESALQ/USP. Only one plant preimmunized with a mild isolate remained with mild symptoms of the disease until the last evaluation. Attempts of detection of natural infections of cucurbits with PRSV-P were carried out in two plantations of zucchini squash and pumpkin at ESALQ/USP, Piracicaba,SP. The detection of the virus was made by inoculation of leaf extracts of cucurbits in papaya cv. Golden. The papaya plants were assessed by symptoms, PTAELISA and RT-PCR. None of papaya plants exhibited symptoms of mosaic, while the ci gene, but not the cp, was detected in a sample of leaves of papaya, indicating that at least one clump of zucchini squash plant was infected. Finally, during the field test at ESALQ/USP, a papaya plant was found showing severe symptoms severe yellow leaf mosaic, leaf distortion and systemic necrosis, different from those induced by PRSV-P. Biological, serological and molecular tests confirmed the infection with AMV. This is the first report of natural infection of papaya with this virus.

Abóbora moranga

Abobrinha

Amino acid Sequence

Mamão

Mosaic (Plant Disease)

Mosaico (Doença de Planta)

Nucleotídeo - Sequência

Nucleotides Sequence

Papaya

Plant virus.

Potyvirus

Potyvirus

Pumpkin

Sequência de aminoácidos

Vegetal Virose Control

Virose vegetal - Controle

Vírus de plantas

Zucchini squash

Caracterização de novos isolados fracos do vírus do mosaico do mamoeiro ocorrendo naturalmente no estado do Espírito Santo; Avaliação da infecção natural de cucurbitáceas com esse vírus; Caracterização de um isolado do mosaico da alfafa infectando mamoeiro (Carica papaya) em campo / Characterization of new mild isolates of papaya ringspot virus naturally occurring in state Espirito Santo state; Evaluation of natural infection of cucurbits with this virus; Characterization of the alfalfa mosaic virus infecting papaya (Carica papaya) in the field

Adriana Gonçalves Moreira

07 May 2009

No estado do Espírito Santo (ES), uma das principais áreas produtoras de mamão do país, a eliminação sistemática de plantas doentes tem sido aplicada desde a década de 1980 para o controle do mosaico do mamoeiro (Papaya ringspot virus - type P; PRSV-P). O uso permanente dessa prática nos últimos 25 anos levou a uma aparente seleção e predominância de isolados fracos do vírus. Os objetivos deste trabalho foram: investigar a prevalência desses isolados fracos, bem como a estabilidade e o efeito protetor contra isolados severos do vírus; estudar a infecção natural de abobrinha de moita (Cucurbita pepo cv. Caserta) e abóbora moranga (C. maxima cv. Exposição) com o PRSV-P quando plantadas ao lado de mamoeiros infectados e caracterizar um isolado do Alfalfa mosaic virus (AMV) em infecção natural em mamoeiro. A detecção de possíveis isolados fracos do vírus foi realizada por PTAELISA, microscopia eletrônica e RT-PCR. Todos os isolados também foram inoculados mecanicamente em mamoeiro cv. Golden para avaliação de sintomas. Sequências de nucleotídeos e de aminoácidos deduzidos do gene da proteína capsidial de alguns isolados fracos mostraram identidades superiores a 89% e 90%, respectivamente, com isolados do PRSV-P. De 119 amostras de mamoeiros analisadas, 86 estavam infectadas com o PRSV-P, mas somente 75 induziram sintomas fracos em mamoeiros. Quatro isolados fracos foram selecionados ao acaso para estudos de estabilidade, e de proteção em casa de vegetação. Apenas dois isolados fracos induziram sintomas estáveis em mamoeiros até a oitava transferência. A proteção total só foi obtida com plantas premunizadas com dois isolados fracos e desafiados com o isolado PRSV-PES. Plantas de mamoeiros cv. Golden premunizadas com vários isolados fracos do PRSV-P foram expostas em condições de campo na ESALQ/USP, Piracicaba, SP, em dois experimentos independentes. Poucas plantas permaneceram com sintomas fracos de mosaico até o final dos experimentos. Uma terceira exposição foi realizada em Linhares, ES, com mamoeiros cvs. Sunrise Solo e Golden premunizados com oito isolados fracos, coletados nos experimentos em campo na ESALQ/USP. Apenas uma planta premunizada com um isolado fraco permaneceu com sintomas leves da doença até a última avaliação. Tentativas de detectaçao de infecções naturais de cucurbitáceas com o PRSV-P foram realizados em dois plantios de abobrinha de moita e dois de abóbora moranga, na ESALQ/USP, Piracicaba, SP. A detecção do vírus foi feita por meio da inoculação de extratos foliares das cucurbitáceas em mamoeiros cv. Golden. Os mamoerios foram avaliados por meio de sintomas, PTA-ELISA e RT-PCR. Nenhuma planta de mamoeiro inoculada com extratos foliares das duas cucurbitáceas exibiu sintomas de mosaico, embora o gene ci, mas não o cp, tenha sido detectado em uma amostra de folhas de mamoeiro, indicando que ao menos uma planta de abobrinha de moita estava infectada. Finalmente, no decorrer dos ensaios de campo na ESALQ/USP, constatou-se uma planta de mamoeiro apresentando sintomas severos de mosaico amarelo, deformação foliar e necrose sistêmica, diferente daqueles induzidos pelo PRSV-P. Análises biológicas, sorológica e moleculares confirmaram tratar-se do AMV. Este é o primeiro relato de infecção natural de mamoeiro com esse vírus. / Papaya ringspot virus type P (PRSV-P) causes the major disease in Brazilian papaya orchards that result in significant yield losses. In Espírito Santo state systematic rouging of infected plants has been applied since early 1980s for the control of this disease. Its permanent use over the last 25 years has lead to an apparent selection and predominance of mild strains throughout papaya orchards. The objectives of this work were to investigate the prevalence of mild isolates, as well the stability and protective effect against severe isolates of the virus; The aim of this work was to study the natural infecction of zucchini squash (Cucurbita pepo cv. Caserta) and pumpkin (C. maxima cv. Exposição) grown near to papaya trees infected with PRSV-P and characterize an isolate of Alfalfa mosaic virus (AMV) in natural infection in papaya. The detection of possible mild isolates of the virus was performed by PTA-ELISA, electron microscopy and RT-PCR. All isolates were inoculated mechanically in papaya cv. Golden for symptoms evaluation. Nucleotides and deduced amino acids sequences of the coat protein gene of some mild isolates showed identities above 89% and 90%, respectively, with isolates of PRSV-P. Of 119 samples from papaya plants analyzed, 86 were infected with PRSV-P and 75 induced mild symptoms on papaya. Four mild isolates were randomly selected for stability and protection studies under greenhouse. Only two isolates induced mild symptoms on papaya and remained stables until the eighth transference. Full protection was obtained with preimmunized plants with two mild isolates and challenged with the isolate PRSV-P-ES. Plants of papaya cv. Golden preimmunized with several mild isolates of PRSV-P were exposed under field conditions at ESALQ/USP, Piracicaba,SP, in two independent experiments. Few plants remained with mild mosaic symptoms at the end of the experiments. A third field exposition was held in Linhares,ES, with papaya cvs. Golden and Sunrise Solo preimmunized with eight mild isolates, collected in field experiments at ESALQ/USP. Only one plant preimmunized with a mild isolate remained with mild symptoms of the disease until the last evaluation. Attempts of detection of natural infections of cucurbits with PRSV-P were carried out in two plantations of zucchini squash and pumpkin at ESALQ/USP, Piracicaba,SP. The detection of the virus was made by inoculation of leaf extracts of cucurbits in papaya cv. Golden. The papaya plants were assessed by symptoms, PTAELISA and RT-PCR. None of papaya plants exhibited symptoms of mosaic, while the ci gene, but not the cp, was detected in a sample of leaves of papaya, indicating that at least one clump of zucchini squash plant was infected. Finally, during the field test at ESALQ/USP, a papaya plant was found showing severe symptoms severe yellow leaf mosaic, leaf distortion and systemic necrosis, different from those induced by PRSV-P. Biological, serological and molecular tests confirmed the infection with AMV. This is the first report of natural infection of papaya with this virus.

Abóbora moranga

Abobrinha

Mamão

Mosaico (Doença de Planta)

Nucleotídeo - Sequência

Potyvirus

Sequência de aminoácidos

Virose vegetal - Controle

Vírus de plantas

Amino acid Sequence

Mosaic (Plant Disease)

Nucleotides Sequence

Papaya

Plant virus.

Potyvirus

Pumpkin

Vegetal Virose Control

Zucchini squash

Studies on the use of biocontrol agents and soluble silicon against powdery mildew of zucchini and zinnia.

Tesfagiorgis, Habtom Butsuamlak.

January 2008

Powdery mildew (PM) is an important foliar disease of many crops, occurring under both greenhouse and field conditions. The application of biological control and soluble silicon (Si) against PM has received increasing acceptance as a result of increased environmental and public concern over the use of fungicides for disease management, and because many key fungicides are no longer effective because of resistance problems. However, success with these control options depends on the development of effective antagonists and understanding how best to use Si in agriculture. Potential antagonists of PM were isolated from naturally infected leaves of different plants. A total of 2000 isolates were tested in a preliminary screening on detached leaves of zucchini. The best 30 isolates showing consistent results were further tested under greenhouse conditions for their efficacy against PM of zucchini. In a greenhouse trial, 23 isolates provided disease control to levels of 30 to 77%. Application of 29 isolates resulted in significant reductions in values of area under disease progress curve (AUDPC). The best five isolates were identified as Clonostachys rosea (Link) Schroers, Samuels, Seifert & Gams (syn. Gliocladium roseum) (Isolate EH), Trichothecium roseum (Pers.) Link (syn. Cephalothecium roseum) (Isolate H20) and Serratia marcescens (Bizio) (Isolates B15, Y15 and Y41). Three adjuvants (Break-ThruR (BK), PartnerR (PR) and Tween-80R (T-80)) were compared for their ability to improve efficacy of spray application of silicon (Si) and biocontrol agents (BCAs) against PM. Both BK and PR improved the efficacy of Si significantly (P < 0.05). Microscopic studies showed that BK affected PM fungi directly and enhanced the deposition of BCAs on the pathogen. Break-ThruR was only toxic to the pathogen mycelia when used at > 0.25 m. .-1, but phytotoxic to zucchini plants when used at > 0.45m. .-1. However, it did not affect the c.f.u. of bacterial BCAs. Use of BK at 0.2-0.4 m. .-1 can be recommended to assist spray application of Si (at 750 mg .-1) or BCAs for improved control of PM. The effect of concentration, frequency of application and runoff of Si sprays applied to the foliage was evaluated for control of PM of zucchini. Silicon (250-1000 mg .-1) + BK (0.25 m. .-1), was sprayed onto zucchini plants at frequencies of 1-3 wk-1. Spraying Si reduced the severity of PM significantly (P < 0.05). Regardless of the concentration of Si, the best results were obtained when the frequency of the treatment was increased, and when spray drift or spray runoff were allowed to reach the rhizosphere of the plants. When Si was applied onto leaves, direct contact between the spray and the pathogen resulted in mycelial death. Part of the spray (i.e., drift and runoff) was absorbed by plant roots, and subsequently played an important role in the health of the plants. If affordable, soluble Si should be included in nutrient solutions of hydroponics or supplied with overhead irrigation schemes when PM susceptible crops are grown. Under greenhouse conditions, application of BCAs, with or without Si, reduced the severity and development of PM significantly (P < 0.001). Application of Si significantly reduced the severity and AUDPC values of PM (P < 0.05 for both parameters). Silicon alone reduced the final disease level and AUDPC values of PM by 23-32%, and improved the efficacy of most BCAs. In the course of the investigation, antagonistic fungi consistently provided superior performances to bacterial isolates, providing disease control levels of up to 90%. Higher overall disease levels reduced the efficacy of Si against PM, but did not affect the efficacy of BCAs. Under field conditions, Si alone reduced disease by 32-70%, Isolate B15 reduced disease by 30-53% and Isolate B15 + Si reduced disease by 33-65%. Other BCAs applied alone or together with Si reduced the disease level by 9-68%. Most BCAs reduced AUDPC values of PM significantly. For most antagonists, better efficacy was obtained when Si was drenched into the rhizosphere of the plant. However, efficacy of some of the BCAs and Si were affected by environmental conditions in the field. Repeated trials and better understanding of how to use Si and the BCAs, in terms of their concentration and application frequency, and their interactions with the plant and the environment, are needed before they can be used for the commercial control of PM. Elemental analysis was conducted to determine the impact of differing application levels of silicon (Si) in a form of potassium silicate (KSi) in solution in terms of Si accumulation and selected elements in different tissues of zucchini and zinnia and growth of these plants, and to study the effect of PM on the levels of selected elements in these two plant species. Plants were grown in re-circulating nutrient solutions supplied with Si at different concentrations and elemental composition in different parts were analysed using EDX and ICP-OES. Increased levels of Si in the solution increased the levels of Si in leaves and roots of both plants without affecting its distribution to other plant parts. In zucchini, the roots accumulated the highest levels of Si, substantially more than in the shoots. In contrast with zinnia, accumulation of Si was highest in the leaves. Accumulation of potassium (K) in shoots of both plants increased with increased levels of KSi in the nutrient solution. However, K levels in flower of zinnia, fruits of zucchini and roots of both plants remained unaffected. Increased level of Si reduced accumulation of calcium (Ca) in both plants. Adding Si into the nutrient solution at 50 mg .-1 resulted in increased growth of zucchini and increased uptake of P, Ca, and Mg by both plant species. However, application of higher levels of Si did not result in any further biomass increase in zucchini. Levels of Si in the nutrient solution had no effects on elemental composition and characteristics of the fruits of zucchini. In both plant species, the presence of PM on the leaves of plants resulted in these leaves accumulating higher levels of Si and Ca, but less P, than leaves of uninfected plants exposed to the same levels of soluble Si. The highest concentrations of Si were observed in leaf areas infected with PM, and around the bases of trichomes. For optimum disease control and maximum accumulation of different elements in these two plants, hydroponic applications of Si at 50-150 mg .-1 is recommended. Five selected biocontrol agents and potassium silicate, used as source of soluble Si, were tested under hydroponic conditions at various concentrations against PM of zinnia (Glovinomyces cichoracearum (DC) Gelyuta, V.P.). Application of BCAs resulted in reductions in final disease level and AUDPC values of PM by 38-68% and 30-65%, respectively. Both severity and AUDPC values of PM were reduced by 87-95% when plants were supplied with Si (50-200 mg .-1). It is proposed that the provision of a continuous supply of Si and the ability of this plant species to accumulate high levels of Si in its leaves were the major reasons for the good response of zinnia to Si treatments against PM. Silicon played a protective role before infection and suppressed development of PM after infection. The combination of the best selected BCAs and Si can be used as an effective control option against PM of zinnia when grown in hydroponic system. / Thesis (Ph.D.)-University of KwaZulu-Natal, Pietermaritzburg, 2008.

Powdery mildew diseases.

Fungal diseases of plants.

Erysiphales.

Biological pest control agents.

Silicon in agriculture.

Plant diseases--Nutritional aspects.

Plant diseases--Biological control.

Theses--Plant pathology.

Biotechnological Application of Potyvirus-Based Vectors in Cucurbit Plants

Houhou, Fakhreddine

29 November 2021

[ES] Hoy en día, los virus de las plantas no sólo se perciben como patógenos, sino que también son capaces de establecer una asociación beneficiosa con sus huéspedes y colaborar desde un punto de vista biotecnológico. El virus, como vector, puede ser una herramienta para introducir genes heterólogos en la planta, que se procesarán junto con la información viral y producirán valiosas proteínas recombinantes, metabolitos o nanopartículas. Los vectores virales también son capaces de interferir con la maquinaria de silenciamiento de la planta dando prioridad a los genes virales. Los potyvirus son virus de ARN de plantas, que codifican principalmente una poliproteína con unas diez proteínas maduras con diferentes funciones, de las cuales las responsables de la supresión del silenciamiento son la proteína componente auxiliar (HC-Pro) y la proteína viral ligada al genoma (VPg). En la primera parte de este trabajo, utilizamos un aislado suave del virus del mosaico de la sandía (WMV; género Potyvirus, familia Potyviridae) para construir un vector para el silenciamiento génico inducido por virus (VIGS) en plantas de melón. Utilizando este virus como vector, expresamos un fragmento de ARNm de la Fitoeno desaturasa (PDS) de melón en las modalidades sentido, antisentido y horquilla para investigar el efecto de la construcción viral en el silenciamiento génico. Los resultados mostraron una expresión estable del fragmento de secuencia insertado en la planta en ambas orientaciones, sentido y antisentido, mientras que en la modalidad de horquilla el inserto se perdió pronto. Sin embargo, las tres construcciones indujeron el silenciamiento del gen PDS endógeno. Se confirmó la utilidad del WMV para el análisis genético inverso en melón expresando un fragmento de la subunidad I de la quelatasa de magnesio (CHLI). En general, nuestros resultados apoyaron que el vector WMV es útil para aplicar la tecnología VIGS en melón y, posiblemente, en otras cucurbitáceas. En la segunda parte de este trabajo, con el objetivo de fortificar las frutas comestibles con metabolitos promotores de la salud, se utilizó un vector de ARN viral derivado del virus del mosaico amarillo del calabacín (ZYMV; género Potyvirus, familia Potyviridae) para expresar una fitoeno sintasa bacteriana (crtB) en los frutos del calabacín (Cucurbita pepo L.). Esta enzima cataliza el primer paso de la biosíntesis de carotenoides. La expresión de la crtB mediada por el ZYMV dio lugar a la sobreacumulación de una serie de metabolitos de carotenoides y tocoferoles, concretamente α- y β-caroteno (provitamina A), luteína y fitoeno, así como α- y γ-tocoferol (vitamina E), tanto en la piel como en la pulpa del calabacín. Este resultado ilustra cómo se pueden enriquecer metabólicamente las frutas comestibles utilizando vectores virales sin modificar el genoma de la planta. / [CA] A dia de hui, els virus de les plantes no sols es perceben com a patògens, sinó que també són capaços d'establir una associació beneficiosa amb els seus hostes i col·laborar des d'un punt de vista biotecnològic. El virus, com a vector, pot ser una eina per a introduir gens heteròlegs en la planta, que es processaran juntament amb la informació viral i produiran valuoses proteïnes recombinants, metabòlits o nanopartícules. Els vectors virals també són capaços d'interferir amb la maquinària de silenciament de la planta donant prioritat als gens virals. Els potyvirus són virus d'ARN de plantes, que codifiquen principalment una poliproteïna d'unes deu proteïnes madures amb diferents funcions, de les quals les responsables de la supressió del silenciament són la proteïna component auxiliar (HC-Pro) i la proteïna viral lligada al genoma (VPg). En la primera part d'aquest treball, utilitzem un aïllat suau del virus del mosaic del meló d'Alger (WMV; gènere Potyvirus, família Potyviridae) per a construir un vector per al silenciament gènic induït per virus (VIGS) en plantes de meló. Utilitzant aquest virus com a vector, expressem un fragment d'ARNm de la Fitoeno desaturasa (PDS) del meló en les modalitats de sentit, antisentit i forqueta per a investigar l'efecte de la construcció viral en el silenciament gènic. Els resultats van mostrar una expressió estable del fragment de seqüència inserit en la planta en totes dues orientacions, sentit i antisentit, mentre que en la modalitat de forqueta l'inserit es va perdre prompte. No obstant això, les tres construccions van induir el silenciament del gen PDS endogen. Es va confirmar la utilitat de la WMV per a l'anàlisi genètica inversa en meló expressant un fragment de la Subunitat I de la quelatasa de magnesi (CHLI). En general, els nostres resultats van secundar que el vector WMV és útil per a aplicar la tecnologia VIGS en meló i, possiblement, en altres cucurbitáceas. En la segona part d'aquest treball, amb l'objectiu de fortificar les fruites comestibles amb metabòlits promotors de la salut, es va utilitzar un vector d'ARN viral derivat del virus del mosaic groc de la carabasseta (ZYMV; gènere Potyvirus, família Potyviridae) per a expressar una fitoeno sintasa bacteriana (crtB) en els fruits de la carabasseta (Cucurbita pepo L.). Aquest enzim catalitza el primer pas compromés de la biosíntesi de carotenoides. L'expressió de la crtB mediada pel ZYMV va donar lloc a la sobreacumulación d'una sèrie de metabòlits de carotenoides i tocoferoles, concretament α- i β caroté (provitamina A), luteïna i fitoeno, així com α- i γ--tocoferol (vitamina E), tant en la pell com en la polpa de la carabasseta. Aquest resultat il·lustra com es poden enriquir metabólicamente les fruites comestibles utilitzant vectors virals sense modificar el genoma de la planta. / [EN] Nowadays, plant viruses are not only perceived as pathogens, but also able to build a beneficial partnership with their hosts and co-work together from a biotechnological view. The virus, as a vector, can be a tool to introduce heterologous genes into the plant, which will process together with the viral information and produce valuable recombinant proteins, metabolites or nanoparticles. Viral vectors are also able to interfere with plant silencing machinery giving priority to the viral genes. Potyviruses are plant RNA viruses, mainly encoding a polyprotein of about ten mature proteins with different functions, from which the responsible of silencing suppression are helper-component proteinase (HC-Pro) and the viral protein genome-linked (VPg). In the first part of this work, we used a mild isolate of Watermelon mosaic virus (WMV; genus Potyvirus, family Potyviridae) to build a vector for virus induced gene silencing (VIGS) in melon plants. Using this virus as a vector, we expressed a fragment of melon Phytoene desaturase (PDS) mRNA in sense, antisense, and hairpin modalities to investigate the effect of the viral construct on gene silencing. The results showed a stable expression of the inserted sequence fragment in the plant in both sense and antisense orientations, whereas in the hairpin modality the insert was soon lost. Yet, all three constructs induced silencing of the endogenous PDS gene. The usefulness of the WMV for reverse genetic analysis in melon was confirmed expressing a fragment of Magnesium chelatase subunit I (CHLI). Overall, our results supported that the WMV vector is useful to apply the VIGS technology in melon and, possibly, other cucurbits. In the second part of this work, with the aim to fortify edible fruits with health promoting metabolites, a viral RNA vector derived from Zucchini yellow mosaic virus (ZYMV; genus Potyvirus, family Potyviridae) was used to express a bacterial phytoene synthase (crtB) in zucchini (Cucurbita pepo L.) fruits. This enzyme catalyzes the first committed step of carotenoid biosynthesis. The crtB expression mediated by ZYMV resulted in the overaccumulation of a range of carotenoids and tocopherols metabolites, namely α- and ß-carotene (pro-vitamin A), lutein and phytoene, as well as α- and γ-tocopherol (vitamin E), in both zucchini rind and flesh. This result illustrates how edible fruits can be metabolically fortified using viral vectors without plant genome modification. / This research was supported by grants BIO2017-83184-R, AGL2017-85563-C2-1-R and RTA2017-00061-C03-03 from Ministerio de Ciencia e Innovación (Spain), through Agencia Estatal de Investigación (cofinanced European Regional Development Fund). / Houhou, F. (2021). Biotechnological Application of Potyvirus-Based Vectors in Cucurbit Plants [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/177644

Virus vegetales

Virus del mosaico de la sandía

Virus del mosaico del calabacín

Cucurbitáceas

Carotenoides

Tocoferol

Silenciamiento génico

Plant virus

Watermelon mosaic virus

Zucchini mosaic virus

Potyvirus

Vector

Cucurbits

Carotenoids

Tocopherol

Gene silencing