Doctoral Thesis
DOI
https://doi.org/10.11606/T.11.2002.tde-03122002-083637
Document
Author
Full name
Elizabete Keiko Takahashi
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
Piracicaba, 2002
Supervisor
Committee
Vieira, Maria Lucia Carneiro (President)
Falco, Maria Cristina
Fungaro, Maria Helena Pelegrinelli
Pereira, Luiz Filipe Protasio
Rezende, Jorge Alberto Marques
Falco, Maria Cristina
Fungaro, Maria Helena Pelegrinelli
Pereira, Luiz Filipe Protasio
Rezende, Jorge Alberto Marques
Title in Portuguese
Transferência do gene atacina A para plantas de maracujá amarelo (Passiflora edulis Sims f. flavicarpa Deg.) por biobalística.
Keywords in Portuguese
bacteriose vegetal
biolística
maracujá
resistência genética vegetal
transferência de genes
biolística
maracujá
resistência genética vegetal
transferência de genes
Abstract in Portuguese
O Brasil é o principal produtor de maracujá amarelo. Entretanto, a produtividade é baixa, cerca de 1 0.000 t por hectare. A produção de frutos varia com o cultivar, condições climáticas, manejo e outros fatores, principalmente doenças causadas por bactérias e vírus. Metodologias de transformação genética são alternativas modernas para obter plantas resistentes. A proteína derivada de inseto, atacina A atua como bactericida, e tem sido utilizada para conferir resistência a espécies vegetais. Os objetivos do presente estudo foram (i) obter a regeneração de brotos in vitro, (ii) testar a eficiência de agentes seletivos durante o processo organogênico, (iii) construir o cassete contendo o gene atacína A, e (iv) determinar as condições físicas e biológicas para a transformação genética de plantas de maracujá amarelo utilizando o método de biobaiística. Em relação a estudos in vitro, três recipientes de cultura foram avaliados como também diferentes concentrações de benzylaminopurina (BA) e água de coco que foram adicionadas ao meio basal. Phytagei e agar também foram testados como agentes solidificantes. As culturas foram avaliadas quanto à resposta morfogênica dos discos foliares. O gene atacina A foi sequenciado e clonado para receber o promotor CAMV 35S com um enhancer duplicado e o terminador 35S. Este vetor foi denominado pFFatacina. O cassete de expressão foi cionado nos vetores pcambia 1300 e pcambia 2300 que contêm os genes higromicina (hpt) e canamicina (nptll), respectivamente. Discos foliares, assim como segmentos entrenodais e hipocotiledonares que induzem calos, foram usados nos experimentos de biobaiística. A expressão do gene uida foi avaliada para testar os parâmetros de bombardeamento, pressão de gás Hélio (psi) e a distância da tela de retenção até o tecido alvo (cm). A resposta organogênica dos discos foliares não diferiu quando placas de petrí, tubos ou frascos foram usados, embora os tubos (2,4 x 8,5 cm, 30 mi) mostraram uma resposta ligeiramente melhor. O meio MS (Murashige & Skoog, Physiologia Plantarum, 15, 1962) solidificado com agar (0,6%) e suplementado com 0,5 mg/L BA e 5% de água de coco (w/v) provou ser eficiente na indução de organgênese. Brotos foram obtidos após 30 dias. Segmentos entrenodais e hipocotiledonares produziram 300 estruturas semelhantes a gemas por explante. Microscopia de varredura e análises histológicas demonstraram ser estruturas foliares, as quais evoluíram em brotos após 50 dias em Y2 MS. Higromicina a 5 mg/L provou ser um agente seletivo apropdado, inibindo organogênese em 60% dos explantes. Canamicina a 50 mg/L foi também efetiva. Calos morfogênicos de até 10 dias e discos foliares de 3 dias de cultivo mostraram elevados níveis de expressão transiente sob 80016,5 ou 100019,5 (psi de gás Héliolcm de distância de võo dos microprojéteis). Foram realizados experimentos de co-transformação com pB[426 (8,7 kb) que contém o gene npdi e pFFatacina (5,25 kb), como também utilizando-se um único vetor (pcatacina 1300), Freqüência de transformação estável de 0,85% foi obtida. A integração do transgene foi confirmada por PCR para o gene atacina A. Este é o primeiro trabalho que relata a transferência de um gene de interesse para plantas de maracujá amarelo por biobalística.
Title in English
Attacin a gene transference to plants of yellow passion fruit (Passiflora edulis Sims f. flavicarpa Deg.) by biolistics.
Keywords in English
biolistic
gene transfer
passion fruit
plant bacterial disease
plant genetic resistance
gene transfer
passion fruit
plant bacterial disease
plant genetic resistance
Abstract in English
Brazil is the leading producer of the yellow passion fruit. However, the productivity is fairly low, about 10,000 t per hectare. Fruit yields vary with cultivars, climatic conditions, management and other factors, namely bacterial and virus díseases. Genetic transformation methodologies are modern alternatives to obtain plant resistance. The insectderived protein, attacin A acts as bacterícide, and it has been used to confer resistance to plant species. The objectives of the present study were (i) to obtain in vitro shoot regeneration, (ii) to test the efficiency of certain selective agents during the organogenesis process, (iií) to construct the cassette containing the attacin A gene, and (iv) to determine the physical and biological conditions for genetic transformation of passion fruit plants by using the biolistic approach. Regarding the ín vítro studies, three culture recipients were evaluated as well as different concentrations of benzylaminopurine (BA) and coconut water that suppiemented the basal medium. Phytagei and agar were aiso tested as solidifying agents. Cultures were evaluated with respect to leaf dises morphogenic responses. The attacín A gene was sequenced, and cioned to receive the CAMV 35S promoter with a duplicated enhancer sequence, and the 35S terminator. This vector was denoted pFFatacina. The cassette was cioned in pcambia 1300 and pcambia 2300 vectors that contain the hygromícin (hpt) and kanamycin (nptil) genes, respectively. Leaf discs, as well as internodal segments and hypocotyl-derived sections chosen to índuce calii, were used in the biolistic experiments. The uida gene expression was evaluated for testing bombardment parameters, namely the helium pressure (psi) and the distance from the stopping screen to the target tissue (cm). The organogenic response of the leaf discs did not differ when petri dishes, tubes or culture vesseis were used although the tubes (2,4 x 8,5 cm, 30 ml capacity) showed to be slightly better. The agar (0.6%)-solidifíed MS (Murashige & Skoog, Physíología Plantarum, 15, 1962) medium suppiemented with 0.5 mg/L BA and 5% (wlv) coconut water proved to be efficient to induce organogenesis. Shoots were obtained after 30 days. Internada[ and hypocotyl-derived segments produced 300 bud-like structures per explant. Scanning microscopy and histologícal anaiyses provided evidences that they were leaf structures, which last 50 days in 1/2 MS to evolve into shoots. Hygromicin at 5 mg/L proved to be proper as selective agent, inhibiting organogenesis in 60% of the explants. Kanamycin at 50 mg/L was also effective. Morphogenic calli up to 10 days old and 3 d-leaf discs showed high levels of transient uida gene expression under 80016.5 or 1000/9.5 helium pressureldistance from the stopping screen to the target tissue. Cotransformation experiments with pBI426 (8.7 kb) that contain the nptil gene and pFFatacina (5.25 kb) were carried on as well singre vector transformation tríals (pcatacina 1300). Stable transformation frequency of 0.85% was obtained. Transgene integration was confirmei by PCR for the attacin A gene. This is the first report on agronomicaily useful-gene transfer to yeilow passion fruit plants by biolistics.
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Publishing Date
2002-12-19
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