Transformação genética e avaliação de promotores heterólogos para o controle da expressão gênica em milho / Genetic transformation and evaluation of heterologous promoters to control gene expression in maize

Souza, Rafaeli Aparecida Vieira de

16 July 2015

Submitted by Reginaldo Soares de Freitas (reginaldo.freitas@ufv.br) on 2018-04-16T17:30:34Z No. of bitstreams: 1 texto completo.pdf: 1704498 bytes, checksum: bd9361caa999676067e272268f557a68 (MD5) / Made available in DSpace on 2018-04-16T17:30:34Z (GMT). No. of bitstreams: 1 texto completo.pdf: 1704498 bytes, checksum: bd9361caa999676067e272268f557a68 (MD5) Previous issue date: 2015-07-16 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / O milho é uma das principais culturas do Brasil e hoje os estudos de transformação genética de plantas estão sendo utilizados como estratégia para obtenção de materiais com resistência a pragas e doenças, tolerância a herbicidas e melhoria na qualidade nutricional. Assim, objetivou-se avaliar meios de cultivo na embriogênese somática de embriões imaturos de milho tropical, estudar metodologias de transformação genética de milho tropical, avaliar promotores de floema PP2 na transformação de milho, avaliar promotores de fruto PCaLTP-S, constitutivo PSulfT0,5, de folha PCit0,4, de senescência PSAG12-like, na transformação genética de milho. Foram conduzidos quatro experimentos em laboratório. Os materiais utilizados foram a linhagem elite L3 de clima tropical para avaliar meios de cultivo na embriogênese somática e na transformação de milho tropical, e o híbrido Hi-II de clima temperado, para os experimentos de avaliação de promotores. Os resultados indicaram que para a embriogênese somática, o meio de cultivo mais eficiente na produção de calos embriogênicos foi o meio M1 (Meio basal N6, 30 g L -1 de sacarose, 100 mg L -1 de caseína hidrolisada, 100 mg L -1 de mio inositol; 2,9 g L -1 de L-prolina e; 15 mg L -1 de nitrato de prata). Para a maturação dos calos embriogênicos, o tratamento sem reguladores de crescimento com adição de CuSO 4 possibilitou maior porcentagem de regeneração. O protocolo desenvolvido apresentou produção de 85% de calos embriogênicos e 45% de plantas regeneradas, podendo, dessa forma, ser utilizado para a produção de plantas transgênicas de milho. A metodologia mais indicada para a transformação genética de milho tropical, foi o método I, visto que a utilização de meios de co-cultivo e repouso com maior concentração de sais foi benéfico para a transferência do T-DNA. Adicionalmente, os resultados indicam que a suplementação do meio de co-cultivo com apenas um antioxidante, a cisteína, é suficiente para a recuperação de células transformadas. No estudo dos promotores de floema em milho, foi gerada uma construção com promotor PP2 heterólogo de milho isolado de uma Cucurbitácea. O promotor PP2 isolado de abóbora dirigiu a expressão do gene repórter gus para o sistema vascular em milho, revelando que pode ser utilizado em estudos futuros de transformação genética de milho. Nas análises de PCR quantitativo dos promotores heterólogos PCaLTP-S, PSulfT0,5, PCit0,4, PSAG12-like, a expressão foi detectada nos tecidos de folha e raiz. Novos estudos devem ser realizados para comprovar a funcionalidade desses promotores heterólogos no milho. / Maize is an important crop in Brazil and today the genetic transformation studies of plants are being used as a strategy to obtain materials with resistance to pests and diseases, herbicide tolerance and improved nutritional quality. Thus aimed to evaluate culture media in somatic embryogenesis of immature embryos of tropical maize, studying methods of genetic transformation of tropical maize, evaluate the phloem promoters PP2 in transforming maize, evaluate promoters PCaLTP-S fruit, PSulfT0,5 constitutive, PCit0,4 leaf and PSAG12-like senescence in genetic transformation of maize. Four experiments were conducted in the laboratory. The materials used were the tropical climate L3 elite line to evaluate culture media in somatic embryogenesis and transformation of tropical maize, and Hi-II hybrid temperate climate for promoters of evaluation experiments. The results indicated that for somatic embryogenesis, the most efficient means of cultivation in the production of embryogenic callus was the M1 medium (N6 basal medium, 30 g L -1 sucrose 100 mg L -1 casein hydrolyzate, 100 mg L - 1 myo-inositol, 2.9 g L -1 L-proline and 15 mg L -1 of silver nitrate). For the maturation of somatic embryogenesis, treatment without growth regulators with the addition of CuSO 4 allowed higher percentage of regeneration. The presented protocol developed production of 85% of embryogenic callus and 45% of regenerated plants and may thus be used for the production of transgenic maize plants. The most suitable method for the genetic transformation of tropical maize was the method I, since the use of means of co- cultivation and resting with a higher salt concentration is beneficial to the transfer of T- DNA. Additionally, the results indicated that supplementation of co-cultivation medium with only the antioxidant cysteine is sufficient to recover transformed cells. In the study of phloem promoters in maize, a construct was generated with PP2 heterologous promoter isolated from a cucurbit. The PP2 pumpkin isolated promoter directed the expression of the GUS reporter gene to the vascular system in maize, revealing that can be used in future studies of genetic transformation of maize. In the quantitative PCR analysis of heterologous promoters PCaLTP-S PSulfT0,5, PCit0,4, PSAG12-like expression was detected in leaf and root tissues. Further studies should be conducted to verify the functionality of these heterologous promoters in maize.

Milho

Embriogênese somática

Expressão gênica

Agrobacterium tumefaciens

Fitotecnia

Transformação genética de embriões somáticos de soja [Glycine max (L.) Merr.] utilizando o bombardeamento e sistema Agrobacterium de maneira integrada

Wiebke, Beatriz

January 2005

O objetivo do presente trabalho foi otimizar o sistema de transformação genética de embriões somáticos de soja [Glycine max (L.) Merr.] utilizando a biolística e o sistema Agrobacterium de maneira integrada. Os antibióticos, adicionados ao meio de cultura para supressão da bactéria após a transferência do transgene, foram o alvo do estudo. Inicialmente, comparou-se o efeito de diferentes tratamentos com antibióticos sobre o tecido embriogênico de soja e sua eficiência na supressão da linhagem LBA4404 de Agrobacterium tumefaciens durante o processo de transformação. A carbenicilina (500 mg/l) apresentou efeitos diferentes sobre o tecido vegetal das duas cultivares testadas. Os tecidos embriogênicos da cv. IAS5 não apresentaram diferenças significativas em relação ao controle, enquanto que a proliferação dos embriões somáticos da cv. Bragg foi três vezes maior com a adição deste antibiótico ao meio de cultura. Contudo, a presença da carbenicilina nas duas concentrações testadas (500 e 1000 mg/l) não foi eficiente para supressão de Agrobacterium. Por outro lado, nos tratamentos com cefotaxima sozinha (350 e 500 mg/l), ou cefotaxima (250 mg/l) + vancomicina (250 mg/l) esta bactéria foi completamente suprimida da superfície dos embriões somáticos após 49 dias de tratamento. No entanto, enquanto a presença de cefotaxima, em qualquer concentração, foi prejudicial à sobrevivência do tecido embriogênico, a combinação de cefotaxima + vancomicina não afetou significativamente os embriões somáticos de soja até os 63 dias de tratamento. Portanto, os resultados indicam que o tratamento com cefotaxima + vancomicina por um período de 49 - 63 dias é o mais adequado para a transformação genética de soja, por suprimir Agrobacterium e apresentar mínimos efeitos sobre o tecido embriogênico. Por fim, conjuntos de embriões somáticos de soja foram transformados e tratados com a combinação recomendada de antibióticos para avaliação da eficiência do método na obtenção de transformantes estáveis. Foram obtidos 48 e 232 clones higromicina-resistentes para Bragg e IAS5, respectivamente. Para cv. Bragg, 26 plantas foram obtidas de um único clone, enquanto 580 plantas foram regeneradas de 105 clones da cv. IAS5. As plantas transgênicas eram férteis e morfologicamente normais. A presença do transgene no genoma destas plantas foi confirmada por análises moleculares. Portanto, a adequação dos antibióticos permitiu o desenvolvimento de um método de transformação altamente eficiente para soja. Os resultados do presente trabalho constituem o primeiro registro (1) do efeito de antibióticos sobre tecidos de soja ou de leguminosas e (2) de obtenção de transformantes estáveis de soja utilizando a biolística e o sistema Agrobacterium de maneira integrada.

Transformação genética : Plantas

Embrioes

Glycine max

Agrobacterium tumefaciens

Transformação genética de embriões somáticos de soja [Glycine max (L.) Merr.] utilizando o bombardeamento e sistema Agrobacterium de maneira integrada

Wiebke, Beatriz

January 2005

O objetivo do presente trabalho foi otimizar o sistema de transformação genética de embriões somáticos de soja [Glycine max (L.) Merr.] utilizando a biolística e o sistema Agrobacterium de maneira integrada. Os antibióticos, adicionados ao meio de cultura para supressão da bactéria após a transferência do transgene, foram o alvo do estudo. Inicialmente, comparou-se o efeito de diferentes tratamentos com antibióticos sobre o tecido embriogênico de soja e sua eficiência na supressão da linhagem LBA4404 de Agrobacterium tumefaciens durante o processo de transformação. A carbenicilina (500 mg/l) apresentou efeitos diferentes sobre o tecido vegetal das duas cultivares testadas. Os tecidos embriogênicos da cv. IAS5 não apresentaram diferenças significativas em relação ao controle, enquanto que a proliferação dos embriões somáticos da cv. Bragg foi três vezes maior com a adição deste antibiótico ao meio de cultura. Contudo, a presença da carbenicilina nas duas concentrações testadas (500 e 1000 mg/l) não foi eficiente para supressão de Agrobacterium. Por outro lado, nos tratamentos com cefotaxima sozinha (350 e 500 mg/l), ou cefotaxima (250 mg/l) + vancomicina (250 mg/l) esta bactéria foi completamente suprimida da superfície dos embriões somáticos após 49 dias de tratamento. No entanto, enquanto a presença de cefotaxima, em qualquer concentração, foi prejudicial à sobrevivência do tecido embriogênico, a combinação de cefotaxima + vancomicina não afetou significativamente os embriões somáticos de soja até os 63 dias de tratamento. Portanto, os resultados indicam que o tratamento com cefotaxima + vancomicina por um período de 49 - 63 dias é o mais adequado para a transformação genética de soja, por suprimir Agrobacterium e apresentar mínimos efeitos sobre o tecido embriogênico. Por fim, conjuntos de embriões somáticos de soja foram transformados e tratados com a combinação recomendada de antibióticos para avaliação da eficiência do método na obtenção de transformantes estáveis. Foram obtidos 48 e 232 clones higromicina-resistentes para Bragg e IAS5, respectivamente. Para cv. Bragg, 26 plantas foram obtidas de um único clone, enquanto 580 plantas foram regeneradas de 105 clones da cv. IAS5. As plantas transgênicas eram férteis e morfologicamente normais. A presença do transgene no genoma destas plantas foi confirmada por análises moleculares. Portanto, a adequação dos antibióticos permitiu o desenvolvimento de um método de transformação altamente eficiente para soja. Os resultados do presente trabalho constituem o primeiro registro (1) do efeito de antibióticos sobre tecidos de soja ou de leguminosas e (2) de obtenção de transformantes estáveis de soja utilizando a biolística e o sistema Agrobacterium de maneira integrada.

Transformação genética : Plantas

Embrioes

Glycine max

Agrobacterium tumefaciens

Regulation of hyu gene expression in Agrobacterium tumefaciens strains RU-AE01 and RU-OR

Jiwaji, Meesbah

January 2007

Several Agrobacterium tumefaciens strains have been isolated for their ability to produce D-amino acids from D, L-substituted hydantoins. The optically pure D-amino acids are used in the synthesis of pharmaceuticals, as food additives and as insecticides. This hydrolysis of D, L-substituted hydantoins is catalysed by two hydantoin-hydrolyzing enzymes, an hydantoinase and an N-carbamyl amino acid amidohydrolase. While the hydantoin-hydrolyzing enzymes have been studied in detail, the mechanisms that control expression of the hyu genes have not. The research reported in this work elucidates some of the mechanisms involved in the regulation of the hyu genes in A. tumefaciens strains. The hydantoin-hydrolyzing enzyme activity from the environmental isolate A. tumefaciens RU-AE01 was characterized. A broad host range vector for the simultaneous analysis of divergent promoters was constructed. The promoter regions responsible for the activation of transcription of hyuH and hyuC were identified by deletion analysis. It was proposed that transcription of hyuH was activated by a putative σ[superscript 54]-dependent promoter or a putative σ[superscript 70]-dependent promoter identified upstream of the hyuH gene. The hyuC gene was activated by a putative σ[superscript 70]-dependent promoter identified upstream of the hyuC gene. The regulation of hydantoinase and N-carbamyl amino acid amidohydrolase enzyme activity was compared to the regulation of transcription from the RU-AE01 hyuH-hyuC region. Expression of the hydantoin-hydrolyzing enzymes was regulated by induction which correlated with reporter enzyme expression from the hyuH and hyuC promoter regions. However, the expression of the hydantoin-hydrolyzing enzymes was also regulated by nitrogen catabolite repression (NCR). This did not correlate to the reporter gene expression of the hyuH promoter region but did compare to the reporter gene expression of the hyuC promoter region. This suggested that NCR of hyuH was at the post-translational level whereas NCR of the hyuC promoter was at the transcriptional level. Pathways involved in the regulation of the hyu genes were characterized. The production of the hydantoin-hydrolyzing enzymes in both A. tumefaciens strains RU-AE01 and RU-OR were regulated by proteins involved in the global ntr pathway. The levels of the hydantoin-hydrolyzing enzymes in strain RU-AE01 were elevated in the presence of increased levels of NtrB and NtrC illustrating the importance of the ntr pathway in the regulation of the levels of the hydantoin-hydrolyzing enzymes. Similarly, in RU-OR the presence of exogenous NtrB and NtrC elevated levels of N-carbamyl amino acid amidohydrolase activity. However, the levels of hydantoinase enzyme activity in strain RU-OR were elevated in the presence of NtrC alone. In addition, the presence of a His6-tagged NtrC molecule abolished the elevation in the levels of the hydantoinase but not the N-carbamyl amino acid amidohydrolase enzyme activity in strain RU-OR. This suggests that NtrC has a direct role in the regulation of the expression of hyuH in RU-OR. In addition, it indicates that the hyu genes in the two A. tumefaciens strains RU-AE01 and RU-OR are different. The presence of the RU-AE01 hyuH-hyuC fragment caused a dramatic increase in the hydantoin-hydrolyzing enzyme activity in strain RU-OR but not strain RU-AE01. This implied the incidence of a possible repressor protein in RU-OR, which is titrated out by the presence of the RU-AE01 hyuH-hyuC fragment. Protein-DNA binding assays suggest that this putative repressor may be 38 kDa in RU-OR cells.

Agrobacterium tumefaciens

Amino acids

Gene expression

Hydrolysis

Hydantoin

Enzymes

Wound induced plant phenolic compounds and virulence gene expression in Agrobacterium species

Spencer, Paul Anthony

January 1991

Crown gall disease of plants is caused by introduction of foreign DNA into susceptible plant cells by strains of Agrobacterium tumefaciens. The expression of bacterial virulence genes is triggered by chemicals present in plant wound exudates. The exudates contain a number of phenolic compounds which act as chemical signals inducing expression of a number of genes directing the DNA transfer process. These are the virulence or vir genes, and vir::lac reporter gene fusions have been widely used to assay vir gene induction in Agrobacterium tumefaciens strains. Using such strains to monitor vir gene expression, Stachel et al. (1985) isolated from Nicotiana tabacum two active acetophenones: 3,5-dimethoxy-4-hydroxyacetophenone, ("acetosyringone" or AS), and α-hydroxy-3,5-dimethoxy-4-hydroxy-acetophenone, ("hydroxyacetosyringone" or HO-AS). However, in vitro assay results suggested that other more common compounds also exhibited activity (Spencer and Towers, 1988). This analysis of structure-activity relationships of induced vir expression in A. tumefaciens was presented in a previous thesis (Paul Spencer, M.Sc. thesis). The results revealed that a variety of commonly occurring plant phenolic compounds were capable of activating vir genes. In addition to the acetophenones, a variety of benzoic and cinnamic acid derivatives, and even a few chalcones of appropriate ring substitution were active. This thesis reports the isolation and identification of a number of these compounds in plant wound exudates. Some Agrobacterium tumefaciens strains are restricted in host range to certain grapevine cultivars. Subsequent to the development of a convenient and sensitive plate-bioassay method, a strongly active component in grapevine wound exudates was purified. A newly described vir-inducing phenolic compound was isolated from a number of Vitis cultivars using gel filtration, thin layer and high pressure liquid chromatographies. This was identified as syringic acid methyl ester (3,5-dimethoxy-4-hydroxybenzoic acid, methyl ester), using mass spectrometry. However, the presence of this compound in grapevine wound exudates does not provide a simple explanation for host range limitation of grapevine strains since it induces vir gene expression in both limited and wide host range strains of A. tumefaciens. Interestingly, neither AS nor HO-AS were present in grapevine-derived extracts. A convenient polyamide column chromatographic method was subsequently developed to permit rapid purification of plant-derived vir gene inducing mixtures, which were detected using the newly developed plate bioassay. Derivatized polyamide fractions were then analysed by combined gas chromatography-mass spectrometry (GC-MS). GC-MS proved to be an ideal means for the identification of the phenolic components in partially purified extracts. Examination of wound exudates from a range of host and non-host species revealed that the production of the acetophenones is restricted to members of the Solanaceae. Some experiments focussed on the biosynthetic precursors of the acetophenones in Nicotiana species. Wound exudates of the majority of species belonging to other plant families contained benzaldehydes and/or benzoic and cinnamic acid derivatives. The induction of virE gene expression was examined in the related Agrobacterium species, A. rhizogenes. To do this, the virE::lacZ gene fusion plasmid pSM358cd was introduced into A. rhizogenes A4 by triparental mating and the strain "A4/pSM358cd" was used to analyze vir activation. Acetophenones, chalcones, benzaldehydes, and benzoic and cinnamic acid derivatives were found to activate vir genes in A. rhizogenes. / Science, Faculty of / Botany, Department of / Graduate

Agrobacterium tumefaciens

Plant-microbe relationships

Plants -- Effect of phenols on

Rhizobium radiobacter

Cellulase gene transcription in Cellulomonas fimi and an Agrobacterium

Greenberg, Norman Michael

January 1988

Transcriptional analysis was used to investigate the molecular mechanisms which effect cellulase gene expression in the gram-positive bacterium Cellulomonas fimi strain ATCC 484 and the gram-negative bacterium Agrobacterium sp. strain ATCC 21400. The cenA, cex and cenB genes of C. fimi encoding the extracellular β-1,4-endoglucanase, EngA (EC 3.2.1.4; Mr 48,700), the extracellular β-1, 4-exoglucanase, Exg (EC 3.2.1.91; Mr 47,300) and the extracellular β-1,4-endoglucanase EngB (EC 3.2.1.4; Mr 110,000) respectively, were characterised. By northern blot analysis, cenA mRNA was detected in C. fimi RNA prepared from glycerol- and carboxymethylcellulose (CMC)-grown cells but not in RNA from glucose-grown cells. The cex mRNA was found only in RNA from CMC-grown cells. The cenB mRNA was found in all three preparations of RNA. Therefore, the expression of these genes is subject to regulation by the carbon source provided to C. fimi. High resolution nuclease SI protection studies with unique 5'-labeled DNA probes and C. fimi RNA isolated in vivo, were used to map the 5' termini of cenA and cex mRNAs. Two cenA mRNA 5' ends, 11 bases apart, mapped 51 and 62 bases upstream of the cenA start codon, suggesting that in vivo, cenA transcription was directed from two promoters in tandem. The cex mRNA 5' end was found to map 28 bases upstream of the cex start codon. Using SI mapping with unlabeled DNA probes and C. fimi RNA which had been isolatedin vivo but which had been 5'-labeled in vitro with vaccinia virus capping enzyme confirmed that true transcription initiation sites for cenA and cex mRNA had been identified. The SI mapping revealed mRNA 3' termini 1,438, 1,449, and 1, 464 bases from the major cenA start site, and one 3' terminus 1,564 bases from the major cex mRNA start site, in good agreement with the northern blot data. High resolution SI studies were also used to show that abundant mRNA 5' ends mapped upstream of the cenB start codon in RNA prepared from CMC-grown cells, while less-abundant species mapped 52 bases closer to the ATG codon in RNA prepared from C. fimi grown on any one of the three substrates. These results seem to indicate a tandem promoter arrangement with an ATG-proximal promoter directing low-level constitutive cenB transcription and a more distal promoter directing higher levels of cenB transcription as a result of C. fimi growth on cellulosic substrate. Steady- state levels were determined for cenA, cex and cenB mRNAs with RNA prepared from glycerol-, glucose-, and CMC-grown cultures of C. fimi in slot-blot hybridisations with radiolabeled oligodeoxyribonucleotide probes. A cex-linked gene (clg) was identified by sequence inspection and SI mapping. Transcripts of the abg gene encoding the β-glucosidase (Abg, EC 3.2.2.21/ Mr 50,000) of Agrobacterium sp. strain ATCC 21400 were also characterised. Northern blot analysis of Agrobacterium RNA revealed the size of the in vivo abgmRNA was approximately 1,500 bases in length. High resolution SI mapping determined abg mRNA 5' ends 22 bases upstream of the abg ATG codon and 3' ends 71 bases downstream of the abg stop codon. / Science, Faculty of / Microbiology and Immunology, Department of / Graduate

Cellulomonas -- Genetics

Genetic transcription

Transcription, Genetic

Agrobacterium

Rhizobium

Cellulase

Expression of human protein C in transgenic Nicotiana tabacum

Piché, Christian.

January 1994

No description available.

Protein C -- Synthesis.

Transgenic plants.

Agrobacterium tumefaciens.

Tobacco.

Agrobacterium-mediated transformation of common bean (Phaseolus vulgaris L.)

Korban, Martine

January 1994

No description available.

Plant genetic transformation.

Agrobacterium.

Kidney bean -- Genetic engineering.

Bedeutung und Charakterisierung der bakteriellen Flora in Vitis vinifera mit und ohne Wurzelhalsgallen / Significance and characterization of the bacterial community in Vitis vinifera with and without crown galls

Faist, Hanna

January 2017

Am Rebstock werden in der Natur von Agrobacterium vitis, dem Auslöser Wurzelhalsgallenerkrankung, charakteristische Wurzelhalsgallentumore induziert. Virulente Vertreter der Gattung der Agrobacteria schleusen bakterielle DNA in das pflanzliche Genom ein, wodurch die Pflanze Tumore produziert. Die Wurzelhalsgallenerkrankung wird seit einem Jahrhundert als ein Beispiel der Pflanzen-Pathogen-Interaktion untersucht. Die Rolle der bakteriellen Flora im Zusammenhang mit der Wurzelhalsgallenerkrankung beim Rebstock wurde bisher kaum betrachtet. Um dieser Frage nachzugehen, habe ich die endophytische mikrobielle Zusammensetzung von Rebstöcken mit und ohne Wurzelhalsgalle analysiert. Es werden Proben von drei Zeitpunkten einer Wachstumsperiode (Frühling, Sommer und Herbst) und von den Organen der Rebstöcke (Wurzeln, Pfropfstelle und einjährige Triebe) sowie dem Boden in einer Weinanlage bei Himmelstadt in Unterfranken genommen. Die Bakterienflora dieser Umweltproben wird mit kultivierungsabhängigen (Isolierung von Bakterien) und kultivierungsunabhängigen (Hochdurchsatzsequenzierungen) Methoden untersucht. Zudem werden i) die Virulenz der verschiedenen Agrobacterium-Isolate in Tumorassays bestimmt, ii) synthetische Bakteriengemeinschaften von in vitro kultivierten Weinpflänzchen mit Wurzelhalsgallen analysiert, iii) die Genome von einem virulenten und einem nicht-virulenten Agrobacteria-Isolat aus der Wurzelhalsgalle verglichen, iv) erste Interaktionsstudien auf festen Nährmedien durchgeführt und v) virulente Agrobacteria mittels bildgebender Fluoreszenz-Lebenszeit-Mikroskopie (FLIM) in Wurzelhalsgallen lokalisiert. Die Rebstöcke dieser Studie haben eine organspezifische Bakterienflora, die innerhalb einer Wachstumsperiode variiert. Nur die Bakterienflora der Pfropfstelle (mit oder ohne Wurzelhalsgalle) aber nicht die des Bodens, der Wurzeln, und der einjährigen Triebe unterscheidet sich strukturell zwischen gesunden und erkrankten Rebstöcken. Mikroskopisch konnten virulente Agrobacteria punktuell in Interzellularen, sklerenchymatischen Geweben und assoziiert mit Leitgefäßen nachgewiesen werden. Dadurch ist ausreichend Lebensraum vorhanden, der zusätzlich von tumorspezifischen Bakterien besiedelt werden kann. Im Gegensatz zur gesunden Pfropfstelle ist in der Wurzelhalsgalle eine saisonal stabile Kernmikroflora, bestehend aus Vertreter von A. vitis, Pseudomonas, Enterobacteriaceae, Agrobacterium tumefaciens, Gammaproteobacteria und Burkholderiales, vorhanden. Diese Bakterien werden überwiegend aus dem Boden rekrutiert und profitieren von der Nährstoffsituation in der Wurzelhalsgalle. Wurzelhalsgallen enthalten Opine, die nur von der transformierten Pflanzenzelle produziert werden. Interessanterweise hat in dieser Arbeit ein Agrobacterium-Isolat Gene, die zum Opinkatabolismus beitragen und ein Pseudomonas-Isolat kann Opine als einzige Kohlenstoffquelle nutzen. Trotzdem sind beide Isolate weder virulent noch verdrängen sie die virulenten A. vitis, die ebenso Opine nutzen, aus der Wurzelhalsgalle. In synthetischen Bakteriengemeinschaften an in vitro kultivierten Weinpflänzchen konnte gezeigt werden, dass diese und weitere tumorspezifischen Bakterien, neben A. vitis, nicht essentiell zur Entstehung der Wurzelhalsgalle nötig sind aber unterschiedliche Funktionen in der Wurzelhalsgalle übernehmen. Ein Serratia-Isolat hemmt das Wachstum von A. vitis auf festen Nährmedium, andere fördern oder hemmen das Wachstum der Wurzelhalsgalle. Nach Studien in der Literatur erhöhen weitere Bakterien die Resistenz des Rebstocks gegenüber biotischem und abiotischem Stress. Zusammengefasst identifizierten und isolierte ich in dieser Studie unter 150 unterschiedlichen Bakterien in der Wurzelhalsgalle jene Bakterien, die neben A. vitis von der neuen ökologischen Nische profitieren und somit wahrscheinlich Opportunisten mit unterschiedlichen Funktionen sind. In Folge von multiplen Interaktionen in der Wurzelhalsgalle entsteht ein ökologisches Gleichgewicht zwischen den opportunistischen Bakterien, der Wurzelhalsgalle und dem Rebstock, das den Fortbestand des Rebstocks mit Wurzelhalsgalle ermöglicht. / In nature, Agrobacterium vitis is known for the ability to introduce bacterial DNA into the grapevine genome, thereby causing crown gall disease. This plant disease has been studied for a century as a model for plant-pathogen interaction, while the role of the plant microbiota in disease development is not well understood. My study contributes to the understanding of the microbial ecology in crown galls of grapevine, combining culture-dependent with culture-independent high-throughput sequencing techniques. I analysed the structure of the endophytic microbiota by collecting different samples (soil, roots, graft unions and canes) of diseased and non-diseased grapevines from one vine-yard in Franconia, Bavaria, Germany during one growing season (spring, summer, autumn). The characterization of the grapevine-associated bacterial microbiota was completed by (i) detecting the virulence of diverse agrobacterial isolates using a tumour growth assay with in vitro cultivated grapevine plantlets, (ii) microbial analysis of synthetic communities of in vitro cultivated grapevine plantlets with crown galls, (iii) genome sequencing of a virulent and a non-virulent agrobacterial isolate, (iv) in vitro interaction studies on solid medium with bacterial isolates and (v) localisation of virulent A. vitis using Fluorescence Lifetime Imaging Microscopy (FLIM) in tumour tissues. Grapevine plants of this study have an organ-specific bacterial community that varies during one growing season. Healthy and diseased grapevine plants differed in the struc-ture of the bacterial community only in the graft union (with or without a crown gall), but not in the soil, root and one-year old cane. Microscopy revealed that virulent Agrobacteria mainly accumulate in defined spots of sclerenchymatous tissue, intercellular space and tissues associated with vessels. Therefore, there is unoccupied living space in a crown gall, which can be additionally colonized by tumour-specific bacteria. A season-independent stable core bacteria exists in grapevine crown galls in contrast to healthy graft unions, consisting of OTUs assigned to A. vitis, Pseudomonas, Enterobacteriaceae, Agrobacterium tumefaciens, Gammaproteobacteria and Burkholderiales. These bacteria are predominantly recruited from the soil and most likely profit from special nutrients in the crown gall. The crown gall contains opines, exclusively produced by transformed plant cells. Curiously individual isolates of Agrobacteria and Pseudo-monas of this study that are non-virulent do not outcompete virulent A. vitis in the crown gall but harbour, like A. vitis, genes involved in octopin-catabolism or use opines in liquid cultures as a sole nutrient source. Although synthetic bacterial communities revealed that the tumour-specific bacteria are not required for crown gall induction us-ing in vitro grown grapevine plantlets, they may have different functions in crown gall persistence. A Serratia-isolate inhibits the growth of A. vitis on solid medium, others reduce or support crown gall development, while some, according to literature, increase resistance of the grapevine plant against biotic and abiotic stresses. Taken together, among the 150 bacteria found in the crown galls, I identified and isolated bacteria in addition to A. vitis that profit from the new ecological niche suggesting an opportunistic lifestyle with different ecological functions. An ecological equilibrium in a bacterial community that balances crown gall growth will support the existence of grapevine plants with a crown gall in vineyards.

Wurzelhalsgalle

DNA Barcoding

Agrobacterium vitis

Weinrebe

Angewandte Mikrobiologie

ddc:577

Using a Mammalian Virus to Create Plants for Site-Specific Transgene Insertion

Zabaronick, William John

06 June 2001

A novel strategy for site-specific DNA transformation of plants has been proposed and the first component of the system developed. The proposed method overcomes the limitations of current techniques by providing a specific integration site for the insertion of transgenes using features of the adeno-associated virus (AAV) life cycle. In the absence of helper virus, AAV integrates into a specific location on human chromosome 19, the AAVS1 locus. The sequence for AAV integration was introduced into the model plant Arabidopsis thaliana using Agrobacterium tumefaciens-mediated transformation. A portion of the human AAVS1 sequence, including the Rep binding site (RBS) and terminal resolution site (TRS), was cloned between T-DNA borders of the Agrobacterium Ti plasmid. The reporter gene, b-glucuronidase (GUS) was inserted proximal to AAVS1 in the plasmid for use in screening for the presence of T-DNA. In addition, it will serve as an indicator of the expression level expected for transgene inserted into AAVS1 by recombinant AAV. PCR amplification, dideoxy sequencing, GUS expression assays and genomic Southern blots were performed to examine putative transgenic plants for the presence of the AAVS1 sequence. / Master of Science

Adeno-associated Virus

Plant Transformation

Vacuum Infiltration

Agrobacterium tumefaciens