Interação entre cana-de-açúcar e bactérias associadas / Interaction between sugarcane and associated bacteria

Priscilla de Barros Rossetto

30 April 2008

Muitos fatores, como variações sazonais, tipos de tecido vegetal, cultivares e espécies de hospedeiro, tipo de solo, interação com microrganismos benéficos ou patógenos entre outros, afetam a estrutura e a composição da comunidade bacteriana das plantas. A introdução de plantas geneticamente modificadas (PGM) foi somada ao conjunto desses fatores, podendo acarretar efeitos diretos e indiretos sobre a comunidade bacteriana. Cana-de-açúcar é uma cultura de grande importância no Brasil; a área de cultivo está em expansão devido aos incentivos para a produção de álcool. Uma bactéria potencialmente importante para a cultura de cana-de-açúcar é a Methylobacterium, um importante endófito de diversas culturas de interesse econômico e que, em cana-de-açúcar, pode melhorar a germinação de sementes, promover um aumento do peso da planta e da área foliar, além do número de internódios. Dessa forma, o trabalho teve como objetivos: i) avaliar os efeitos da canade- açúcar transgênica resistente a insetos e a herbicida sobre a comunidade bacteriana associada; ii) avaliar se o suposto efeito causado pela cana-de-açúcar transgênica resistente a herbicida deriva diretamente do transgene ou dos tratos culturais diferenciados aos quais a planta transgênica é submetida; iii) avaliar a interação entre Methylobacterium spp. e cana-de-açúcar. Analisando a densidade bacteriana das plantas de cana-de-açúcar convencionais e transgênicas não foi possível constatar diferenças relacionadas à introdução dessas plantas. Analisando somente quanto ao manejo de ambos os experimentos, foi possível observar que diferenças em trato cultural ou manejo de plantas, decorrentes ou não da transgenia, podem influenciar a comunidade bacteriana. Por meio de ARDRA, foi possível observar distribuição diferenciada dos ribotipos com a introdução das PGMs. No experimento realizado somente com plantas transgênicas para resistência a Imazapyr, foi possível notar que, em 17 meses, a presença da planta transgênica e a aplicação do herbicida Imazapyr podem ter resultado na redução da densidade bacteriana associada à rizosfera de cana-de-açúcar. Por meio de DGGE, foi visto que o estado fisiológico da planta foi a maior fonte de variação. Novamente por meio de ARDRA, foram observados ribotipos cuja presença foi afetada pelo cultivo da planta transgênica. Esses ribotipos diferentemente distribuídos poderiam resultar em alterações na atividade bacteriana dessas plantas, uma vez que esses ribotipos podem representar grupos funcionais importantes. A colonização de Methylobacterium spp. em cana-de-açúcar foi analisada por meio de microscopia eletrônica de varredura, reisolamento e microscopia óptica de fluorescência. Foi visto que as linhagens utilizadas colonizam cana-de-açúcar, sendo que os pontos de maior colonização são os flanges cuticulares e as regiões pilosas da raiz. Outros estudos são necessários para o melhor aproveitamento dessa bactéria na cultura de cana-de-açúcar. / Many factors, such as seasonal variations, kinds of vegetal tissue, cultivares and host species, kind of soil, interaction with beneficial or pathogen microorganisms, among others, affect the structure and composition of plants bacterial community. The introduction of genetically modified plants (GMP) was added to the set of these factors, making it possible to cause direct and indirect effects on the bacterial community. Sugarcane is a very important crop in Brazil; the cultivation area is expanding due to incentives to alcohol production. A potentially important bacterium for sugar cane cultivation is the Methylobacterium, which is an important endophyte for several cultures of economic interest and which can improve seed germination in sugar cane, promote an increase of plant weight and foliar area, and also the internodes. Thus, the work had as objectives: i) to assess the effects of transgenic sugarcane resistant to insects and herbicide on the associated bacterial community; ii) to assess if the presumed effect caused by transgenic sugarcane resistant to herbicides derives directly from the transgene or differentiated cultural handlings to which the genetically modified plant is undertaken; iii) to assess the interaction between Methylobacterium ssp. and sugarcane. Analyzing the bacterial density of conventional and transgenic sugarcane plants it was not possible to see differences related to the introduction of these plants. Analyzing only in relation to the handling of both experiments, it was possible to see that differences in cultural wielding or handling of plants derived or not from transgenia can influence the bacterial community. By means of ARDRA, it was possible to see a differentiated distribution of ribotypes with the introduction of GMPs. In the experiment made only with transgenic plants for Imazapyr resistance, it was possible to see that in 17 months, the presence of the transgenic plant and the application of Imazapyr herbicide can bring result regarding the bacterial density reduction associated to sugarcane rizosphere. By means of DGGE, it was seen that the physiological status of the plant was the greatest variation source. Again, by means of ARDRA, ribotypes whose presence was affected by transgenic plant cultivation were observed. If distributed differently, these ribotypes can represent important functional groups. The Methylobacterium ssp. Colonization in sugarcane was analyzed and by means of scanning electronic microscopy, re-isolation, and fluorescence optical microscopy. It was observed that the utilized lineages colonize sugarcane being cuticle flange and perilous regions of root the highest colonization points. Other studies are needed to a better good use of this bacterium in sugarcane culture.

Bactérias

Biodiversidade

Cana-de-açúcar

Microrganismos endofíticos

Plantas transgênicas

Rizosfera.

ARDRA

Bacterial diversity

DGGE.

Methylobacterium

Transgenic sugarcane

Methylobacterium spp.: Emerging Opportunistic Premise Plumbing Pathogens

Szwetkowski, Kyle John

15 May 2017

Opportunistic premise plumbing pathogens (OPPPs) are responsible for many infections linked to drinking water. The annual cost of disease caused by these waterborne pathogens is $850 million. Key characteristics of these opportunistic waterborne pathogens include: disinfectant- resistant, biofilm formation, thermal-tolerance, desiccation-resistant, growth in amoebae and growth in low oxygen conditions. Methylobacterium spp. have been recognized as an emerging OPPP, so the purpose of this study was to investigate these waterborne bacteria in more detail to determine whether they have all characteristics of OPPPs. Seven Methylobacterium spp. strains were studied to measure growth in laboratory broth medium and drinking water, measure hydrophobicity on surfaces found in household plumbing, measure adherence and biofilm formation to surfaces found in household plumbing and measure susceptibility to hot water heater temperatures. Methylobacterium spp. were found to aggregate in lab broth medium and drinking water, hydrophobic on different surfaces in household plumbing, adhere readily and form biofilm on different surfaces and thermal-tolerant to water heater temperatures. These results support and identify Methylobacterium spp. as opportunistic premise plumbing pathogens. / Master of Science

Methylobacterium spp.

opportunistic premise plumbing pathogens

hydrophobicity

adherence

biofilm formation

thermal-tolerance

Le rôle des bactéries dans le filtrage du chlorométhane un gaz destructeur de la couche d'ozone : des souches modèles aux communautés microbiennes de sols forestiers / Bacteria as chloromethane sinks : from model strains to forest soil communities

Chaignaud, Pauline

29 June 2016

Le chlorométhane (CH3Cl) est un composé organique volatile responsable de plus de 15 % de la dégradation de l’ozone stratosphérique due aux composés chlorés. Il est produit majoritairement par les plantes vivantes ou en décomposition. Les bactéries capables d’utiliser le CH3Cl comme source de carbone pour leur croissance peuvent jouer un rôle de filtre dans les émissions de CH3Cl vers l'atmosphère. Ce processus biologique reste à quantifier dans l'environnement, notamment pour les sols forestiers considérés comme un puits majeur de ce composé.Dans les études environnementales, le gène cmu A est utilisé comme biomarqueur de la dégradation bactérienne du CH3Cl. Il code une chlorométhane méthyltransférase essentielle à la croissance bactérienne avec le CH3Cl parla voie cmu (pour chloromethane utilisation), la seule caractérisée à ce jour. Mon projet de thèse avait un double objectif : i) l’approfondissement des connaissances de l’adaptation au CH3Cl chez une bactérie méthylotrophe modèle, Methylobacterium extorquens CM4; ii) l’exploration de la diversité des bactéries CH3Cl-dégradantes de sols forestiers. L’étude RNAseq chez la souche CM4 a montré que la croissance avec le CH3Cl s'accompagne de différences dans la transcription de 137 gènes de son génome (6.2 Mb) par rapport à sa croissance sur le méthanol (CH3OH). Les gènes de la voie cmu, ainsi que d’autres gènes impliqués dans le métabolisme de cofacteurs essentiels à l’utilisation du CH3Cl par cette voie et eux aussi portés par le plasmide pCMU01 de la souche, en font partie. Les paralogues de ces gènes localisés sur le chromosome ne sont quant à eux pas différentiellement exprimés. En revanche, d’autres gènes du chromosome, potentiellement impliqués dans l’excrétion de protons produits lors de la déshalogénation (hppA), la régénération du NADP+ (pnt), ou le métabolisme du cofacteur tétrahydrofolate(gènes gcvPHT), le sont. L’étude de la diversité des bactéries CH3Cl-dégradantes de sol forestier de la réserve naturelle de Steigerwald (Allemagne) a été réalisée sur des microcosmes par une approche de « Stable Isotope Probing ». Les microorganismes capables d’assimiler le CH3Cl marqué au [13C] incorporent cet isotope lourd du carbone dans leur ADN. L'analyse des séquences amplifiées par PCR des gènes codant l’ARN 16S des fractions d'ADN enrichies en [13C] a permis de mettre en évidence de nouveaux phylotypes, du genre Methylovirgula et de l’ordre des Actinomycetales, distincts de ceux auxquelles les souches dégradant le CH3Cl isolées jusqu'ici sont affiliées. En revanche, les séquences du gène cmuA et d’autres gènes du métabolisme méthylotrophe obtenues par PCR à partir de l'ADN enrichi en [13C] sont très proches de celles des souches CH3Cl-dégradantes connues. Les résultats obtenus suggèrent ainsi que des bactéries ayant acquis par transfert horizontal les gènes de dégradation de la voie cmu ou ne possédant pas de gène cmuA contribuent au filtrage biologique du CH3Cl des sols forestiers. A l'avenir, le couplage de différentes méthodes moléculaires et des approches culturales visera à découvrir de nouvelles voies microbiennes de l’utilisation du CH3Cl, et à caractériser l’abondance et la diversité des métabolismes impliqués dans la dégradation du CH3Cl dans les sols et d'autres compartiments environnementaux. / Chloromethane (CH3Cl) is a volatile organic compound responsible for over 15% of stratospheric ozone degradation due to chlorinated compounds. It is mainly produced by living and decaying plants. Bacteria utilizing CH3Cl as sole carbon and energy source for growth were shown to be involved in the filtering of CH3Cl emissions to the atmosphere. This biological process remains to be quantified in the environment, especially for forest soil, a major CH3Cl sink. The cmuA gene is used as a biomarker of bacterial CH3Cl degradation in environmental studies. It encodes a CH3Cl methyltransferase essential for bacterial growth by the cmu (chloromethane utilization) pathway for growth with CH3Cl and the only one characterized so far. My thesis project had a double aim: i) In depth studies of CH3Cl adaptation of a model methylotrophic bacterium, Methylobacterium extorquens strain CM4; ii) Exploration of bacterial CH3Cl-utilizers in forest. An RNAseq study of strain CM4 has shown that growth with CH3Cl leads to a difference of transcription of 137 genes in its 6.2 Mb genome compared to growth with methanol (CH3OH). Among those, genes of the cmu pathway and other genes involved in the metabolism of essential cofactors for CH3Cl utilization by this pathway, are all plasmid pCMU01-encoded. Paralogous genes located on the chromosome were not differentially expressed. On the other hand, other chromosomal genes potentially involved in extruding protons generated during CH3Cl deshalogenation (hppA), NADP+ regeneration (pnt), or in the cofactor tetrahydrofolate metabolism (gcvPHT) were differentially expressed. The diversity of CH3Cl-degrading bacteria in forest soil of the German natural park of Steigerwald was studied in microcosms using stable isotope probing. Microorganisms able to assimilate labeled [13C]- CH3Cl incorporate this heavy carbon isotope in their DNA. Sequence analysis of the PCR-amplified 16S RNA encoding gene from [13C]-DNA fractions uncovered phylotypes of the genus Methylovirgula and of the order of the Actinomycetales, which were not associated with bacterial CH3Cl degradation so far. In contrast, PCR-amplified sequences of cmuA and other genes of methylotrophic metabolism were closely related to known CH3Cl-degrading isolates. These results suggest that bacteria containing genes of the cmu pathway acquired by horizontal gene transfer as well as bacteria lacking the cmu pathway contribute to biological filtering of CH3Cl in forest soil. Future experiments coupling molecular and culture methods will aim to discover new CH3Cl-degrading pathways and to characterize the abundance and diversity of CH3Cl-degradation metabolism in soil and other environmental compartments.

Chlorométhane

Déchloration bactérienne

Méthylotrophie

Methylobacterium extorquens CM4

Communautés bactériennes

RNA sequencing

Stable isotope probing

Sols forestiers

Microcosmes

Chloromethane

Bacterial dechlorination

Methylotrophy

Methylobacterium extorquens CM4

Bacterial communities

RNA sequencing

Stable isotope probing

Forest soil

Microcosms

572.8

579

Conception et production de biopolyesters avec groupements réactifs par Methylobacterium extorquens ATCC 55366 une voie vers de nouveaux matériaux pour l'ingénierie tissulaire / Design and production of functionalized biopolyesters by methylobacterium extorquens ATCC 55366 : toward new tissue engineering materials

Höfer, Heinrich Friedrich Philipp Till Nikolaus

January 2009

Vascular networks are required to support the formation and function of three-dimensional tissues. Biodegradable scaffolds are being considered in order to promote vascularization where natural regeneration of lost or destroyed vascular networks fails. Particularly; composite materials are expected to fulfill the complex demands of a patient's body to support wound healing. Microbial biopolyesters are being regarded as such second and third generation biomaterials. Methylobacterium extorquens is one of several microorganisms that should be considered for the production of advanced polyhydroxyalkanoates (PHAs). M. extorquens displays a distinct advantage in that it is able to utilize methanol as an inexpensive substrate for growth and biopolyester production. The design of functionalized PHAs, which would be made of both saturated short-chain-length (scl, C [less than or equal to] 5) and unsaturated medium-chain-length (mcl, 6 [less than or equal to] C [less than or equal to] 14) monomeric units, aimed at combining desirable material properties of inert scl/mcl-PHAs with those of functionalized mcl-PHAs. By independently inserting the phaC1 or the phaC2 gene from Pseudomonas fluorescens GK13, recombinant M. extorquens strains were obtained which were capable of producing PHAs containing C-C double bonds. A fermentation process was developed to obtain gram quantities of biopolyesters employing the recombinant M. extorquens ATCC 55366 strain which harbored the phaC2 gene of P. fluorescens GK13, the better one of the two strains at incorporating unsaturated monomeric units. The PHAs produced were found in a blend of scl-PHAs and functionalized scl/mcl-PHAs (4 [less than or equal to] C [less than or equal to] 6), which were the products of the native and of the recombinant PHA synthase, respectively. Thermo-mechanical analysis confirmed that the functionalized scl/mcl-PHAs exhibited the desirable material properties expected. This project contributed to current research on polyhydroxyalkanoates at different levels. The terminal double bonds of the functionalized scl/mcl-PHAs are amenable to chemical modifications and could be transformed into reactive functional groups for covalently linking other biomacromolecules. It is anticipated that these biopolyesters will be utilized as tissue engineering materials in the future, due to their functionality and thermo-mechanical properties.

Tissue engineering

Thermo-mechanical properties

Material characterization

Fermentation in pilot-scale operators

Genetic modification

Methylobacterium extorquens

Functionalized polyhydroxyalkanoates

Biopolyesters

Investigations of the bacterial sink for plant emissions of chloromethane

Farhan Ul Haque, Muhammad

30 May 2013

Chloromethane is the most abundant halocarbon in the environment, and responsible for substantial ozone destruction in the stratosphere. Sources and sinks of chloromethane are still poorly constrained. Although synthesized and used industrially, chloromethane is mainly produced naturally, with major emissions from vegetation and especially the phyllosphere, i.e. the aerial parts of plants. Some phyllosphere epiphytes are methylotrophic bacteria which can use single carbon compounds such as methanol and chloromethane as the sole source of carbon and energy for growth. Most chloromethane-degrading strains isolated so far utilize the cmu pathway for growth with chloromethane which was characterized by the team. The main objective of this work was to investigate whether epiphytes may act as filters for plant emissions of chloromethane, by using a laboratory bipartite system consisting of the model plant Arabidopsis thaliana, known to produce chloromethane mainly by way of the HOL1 gene, and the reference chloromethane-degrading bacterial strain Methylobacterium extorquens CM4, possessing the cmu pathway and of known genome sequence. Three A. thaliana Col-0 variants with different levels of expression of HOL1, i.e. the wild-type strain, its homozygous HOL1 knockout mutant hol1 and an HOL1-OX HOL1 overexpressor, were selected using PCR and qRT-PCR. Chloromethane-degrading strains were isolated from the A. thaliana phyllosphere, and shown to contain the cmu pathway. A plasmid-based bacterial bioreporter for chloromethane was constructed which exploits the promoter region of the conserved chloromethane dehalogenase gene cmuA of strain CM4. It yields rapid, highly sensitive, specific and methyl halide concentration-dependent fluorescence. Application of the bioreporter to the three A. thaliana variants differing in expression of HOL1 investigated in this work suggested that they indeed synthesize different levels of chloromethane. Analysis by qPCR and qRT-PCR of metagenomic DNA from the leaf surface of these variants showed that the relative proportion and expression of cmuA in this environment paralleled HOL1 gene expression. Taken together, the results obtained indicate that even minor amounts of chloromethane produced by A. thaliana in the face of large emissions of methanol may provide a selective advantage for chloromethane-degrading methylotrophic bacteria in the phyllosphere environment. This suggests that chloromethane-degrading epiphytes may indeed act as filters for emissions of chloromethane from plants. Further experiments are envisaged to further assess the adaptation mechanisms of chloromethane-degrading bacteria in the phyllosphere, building upon the comparative genomic analysis of chloromethane-degrading strains which was also performed in this work, and on the preliminary investigations using high-throughput sequencing that were initiated.

Chloromethane

Methylotrophic bacteria

Methylobacterium extorquens

Arabidopsis thaliana

Bacterial genomics

Bioreporter

HOL1

CmuA

Comunidade bacteriana associada às cigarrinhas (Hemiptera:Cicadellidae), insetos vetores de Xylella fastidiosa / Bacterial community associated to sharpshooters (Hemiptera: Cicadellidae) insect vectors of Xylella fastidiosa

Gai, Cláudia Santos

20 December 2006

A Clorose Variegada dos Citros (CVC), doença que causa graves prejuízos à citricultura no estado de São Paulo, é causada pela bactéria Xylella fastidiosa que é transmitida pelas cigarrinhas Bucephalogonia xanthophis (Berg), Dilobopterus costalimai (Young), Acrogonia citrina (Marucci & Cavichioli) e Oncometopia facialis (Signoret). Durante a alimentação em plantas afetadas, esses insetos adquirem a bactéria, que coloniza o pré-cibário e o cibário, e depois são capazes de transmitir a doença para plantas sadias. Colonizando o xilema das plantas de citros encontram-se também bactérias endofíticas, que são microrganismos capazes de colonizar internamente tecidos de plantas sem causar dano aparente, e que podem interagir com patógenos no interior do hospedeiro. Este trabalho teve como objetivo avaliar a comunidade bacteriana associada as cigarrinhas vetoras de CVC, e observar as possíveis interações que ocorrem entre insetos vetores de X. fastidiosa e bactérias endofíticas de citros. Primeiramente foi feito um isolamento das bactérias da cabeça de cigarrinhas coletadas em pomares de citros afetados com CVC. Foram isoladas um total de 17230 bactérias de três espécies de cigarrinhas (O. facialis, D. costalimai e A. citrina) em três datas diferentes (22/março, 05/maio e 14/junho de 2002), que foram primeiramente classificadas em 9 grupos morfológicos. Do total, 120 bactérias representantes foram avaliadas por ARDRA e classificadas em 16 haplótipos, dos quais alguns foram identificados, por seqüenciamento da região 16S do rDNA, como Methylobacterium sp. e Curtobacterium sp., que são bactérias endofíticas de citros já descritas e que interagem com X. fastidiosa em citros. Primers específicos para estas bactérias foram utilizados para PCRs com o DNA total da cabeça de cigarrinhas e variou de 39,1% a 89,6% nas diferentes espécies. A comunidade bacteriana associada às cigarrinhas foi também avaliada por DGGE e apresentou variações quanto ao inseto hospedeiro e quanto à época das avaliações. Um isolado de M. mesophilicum expressando o gene da proteína verde fluorescente (GFP ? Green Fluorescent Protein) foi utilizado para experimento de transmissão deste endófito por B. xanthophis. Os insetos se alimentaram em membrana contendo a solução da bactéria e depois foram colocados em plantas de Catharanthus roseus. Das plantas, 13% apresentaram a bactéria fluorescente colonizando tecidos endofiticamente, o que indica que a cigarrinha é capaz de transmitir o endófito. Testes para a avaliação da produção de moléculas de quorum sensing (AHLs - Acil Homocerina Lactonas) foram feitos para M. mesophilicum e M. extorquens. Foram ainda desenvolvidos mutantes de M. extorquens, defectivos para a produção de biofilme e AHLs. / The Citrus Variegated Chlorosis (CVC), a very important disease which attacks citrus trees in the state of São Paulo, is caused by the xylem-limited bacteria, Xylella fastidiosa, which is transmitted by four species of sharpshooters (Cicadellidae) Bucephalogonia xanthophis (Berg), Dilobopterus costalimai (Young), Acrogonia citrina (Marucci & Cavichioli) and Oncometopia facialis (Signoret) which are capable of acquiring X. fastidiosa from the xylem while feeding. In plants, endophytic bacteria, which inhabit the interior of aerial plant parts developing an asymptomatic infection and show potential benefits as biocontrol agents of pests and diseases, may colonize the same niche of pathogens, such as X. fastidiosa, what could allow endophytes to interact with the pathogen. Bacteria were isolated from head of insect vectors, collected on affected citrus plants. From 17230 bacteria isolated from the heads of three insect species (O. facialis, D. costalimai and A. citrina) in three different days (22/march, 05/may and 14/june of 2002), 120 bacteria were tested with ARDRA and classified into 16 different haplotypes. The most frequent strains had their 16S rDNA fragment sequenced and they were identified as Methylobacterium sp. and Curtobacterium sp., bacteria which have been described as citrus endophytes which interact with X. fastidiosa. Total DNA of insect heads was used in Nested PCRs for detection of these citrus endophytes in insects. The frequencies of detection ranged from 39,1% to 89,6%. The bacterial community associated to sharpshooters was also evaluated by DGGE and presented variations due to insect host and time of the evaluations. One M. mesophilicum isolate, expressing the GFP (Green Fluorescent Protein), was used to test the transmission of endophytes by B. xanthophis. Insects fed on membranes containing a bacterial solution and after were trapped on Catharanthus roseus. From the evaluated plants, 13% presented the fluorescent protein colonizing endophytically, indicating that the insect is able to transmit the endophytic bacteria. Biofilm and quorum sensing molecules (AHLs - Acyl Homocerine Lactones) production by Methylobacterium sp. were tested, and M. extorquens mutants for both features were produced.

Methylobacterium sp.

Xylella fastidiosa

biofilm

Biofilme

Biologia molecular

Cigarrinhas

Clorose variegada dos citros

Controle biológico

DGGE

Insetos vetores

Microrganismos endofíticos

quorum sensing

Sharpshooters

transmission

Comunidade bacteriana associada às cigarrinhas (Hemiptera:Cicadellidae), insetos vetores de Xylella fastidiosa / Bacterial community associated to sharpshooters (Hemiptera: Cicadellidae) insect vectors of Xylella fastidiosa

Cláudia Santos Gai

20 December 2006

A Clorose Variegada dos Citros (CVC), doença que causa graves prejuízos à citricultura no estado de São Paulo, é causada pela bactéria Xylella fastidiosa que é transmitida pelas cigarrinhas Bucephalogonia xanthophis (Berg), Dilobopterus costalimai (Young), Acrogonia citrina (Marucci & Cavichioli) e Oncometopia facialis (Signoret). Durante a alimentação em plantas afetadas, esses insetos adquirem a bactéria, que coloniza o pré-cibário e o cibário, e depois são capazes de transmitir a doença para plantas sadias. Colonizando o xilema das plantas de citros encontram-se também bactérias endofíticas, que são microrganismos capazes de colonizar internamente tecidos de plantas sem causar dano aparente, e que podem interagir com patógenos no interior do hospedeiro. Este trabalho teve como objetivo avaliar a comunidade bacteriana associada as cigarrinhas vetoras de CVC, e observar as possíveis interações que ocorrem entre insetos vetores de X. fastidiosa e bactérias endofíticas de citros. Primeiramente foi feito um isolamento das bactérias da cabeça de cigarrinhas coletadas em pomares de citros afetados com CVC. Foram isoladas um total de 17230 bactérias de três espécies de cigarrinhas (O. facialis, D. costalimai e A. citrina) em três datas diferentes (22/março, 05/maio e 14/junho de 2002), que foram primeiramente classificadas em 9 grupos morfológicos. Do total, 120 bactérias representantes foram avaliadas por ARDRA e classificadas em 16 haplótipos, dos quais alguns foram identificados, por seqüenciamento da região 16S do rDNA, como Methylobacterium sp. e Curtobacterium sp., que são bactérias endofíticas de citros já descritas e que interagem com X. fastidiosa em citros. Primers específicos para estas bactérias foram utilizados para PCRs com o DNA total da cabeça de cigarrinhas e variou de 39,1% a 89,6% nas diferentes espécies. A comunidade bacteriana associada às cigarrinhas foi também avaliada por DGGE e apresentou variações quanto ao inseto hospedeiro e quanto à época das avaliações. Um isolado de M. mesophilicum expressando o gene da proteína verde fluorescente (GFP ? Green Fluorescent Protein) foi utilizado para experimento de transmissão deste endófito por B. xanthophis. Os insetos se alimentaram em membrana contendo a solução da bactéria e depois foram colocados em plantas de Catharanthus roseus. Das plantas, 13% apresentaram a bactéria fluorescente colonizando tecidos endofiticamente, o que indica que a cigarrinha é capaz de transmitir o endófito. Testes para a avaliação da produção de moléculas de quorum sensing (AHLs - Acil Homocerina Lactonas) foram feitos para M. mesophilicum e M. extorquens. Foram ainda desenvolvidos mutantes de M. extorquens, defectivos para a produção de biofilme e AHLs. / The Citrus Variegated Chlorosis (CVC), a very important disease which attacks citrus trees in the state of São Paulo, is caused by the xylem-limited bacteria, Xylella fastidiosa, which is transmitted by four species of sharpshooters (Cicadellidae) Bucephalogonia xanthophis (Berg), Dilobopterus costalimai (Young), Acrogonia citrina (Marucci & Cavichioli) and Oncometopia facialis (Signoret) which are capable of acquiring X. fastidiosa from the xylem while feeding. In plants, endophytic bacteria, which inhabit the interior of aerial plant parts developing an asymptomatic infection and show potential benefits as biocontrol agents of pests and diseases, may colonize the same niche of pathogens, such as X. fastidiosa, what could allow endophytes to interact with the pathogen. Bacteria were isolated from head of insect vectors, collected on affected citrus plants. From 17230 bacteria isolated from the heads of three insect species (O. facialis, D. costalimai and A. citrina) in three different days (22/march, 05/may and 14/june of 2002), 120 bacteria were tested with ARDRA and classified into 16 different haplotypes. The most frequent strains had their 16S rDNA fragment sequenced and they were identified as Methylobacterium sp. and Curtobacterium sp., bacteria which have been described as citrus endophytes which interact with X. fastidiosa. Total DNA of insect heads was used in Nested PCRs for detection of these citrus endophytes in insects. The frequencies of detection ranged from 39,1% to 89,6%. The bacterial community associated to sharpshooters was also evaluated by DGGE and presented variations due to insect host and time of the evaluations. One M. mesophilicum isolate, expressing the GFP (Green Fluorescent Protein), was used to test the transmission of endophytes by B. xanthophis. Insects fed on membranes containing a bacterial solution and after were trapped on Catharanthus roseus. From the evaluated plants, 13% presented the fluorescent protein colonizing endophytically, indicating that the insect is able to transmit the endophytic bacteria. Biofilm and quorum sensing molecules (AHLs - Acyl Homocerine Lactones) production by Methylobacterium sp. were tested, and M. extorquens mutants for both features were produced.

Biofilme

Biologia molecular

Cigarrinhas

Clorose variegada dos citros

Controle biológico

Insetos vetores

Microrganismos endofíticos

Methylobacterium sp.

Xylella fastidiosa

biofilm

DGGE

quorum sensing

Sharpshooters

transmission

Priming capacities of endophytic <em>Methylobacterium</em> sp. on potato (<em>Solanum tuberosum</em> L.)

Ardanov, P. (Pavlo)

20 August 2013

Abstract The plant can be considered a superorganism that consists of the plant per se and numerous populations of pro- and eukaryotic microorganisms. The interactions between the plant and endophytic microorganisms colonizing plant internal tissues are typically commensalistic or mutualistic. However, information on the role of endophytes in plant defense is limited because pathways are only partly known and systemic responses are typically not seen. The aim of this thesis was to study the priming capacities of endophytic Methylobacterium sp. IMBG290 on potato (Solanum tuberosum L.). Priming of plants by non-pathogenic bacteria allows the host to save energy and to reduce time needed for development of defense reaction during a pathogen attack. Priming phenomenon was demonstrated for Methylobacterium sp. IMBG290 as an activation of salicylic acid and jasmonate/ethylene-dependent defense pathways after challenge inoculation with the pathogen. Moderate activation of plant antioxidant system may also contribute to resistance induction by the strain. The viable but nonculturable state is presumably a survival strategy observed for the majority of bacterial endophytes. Pathogen attack or environmental changes can activate these quiescent forms. Thus Methylobacterium+ sp. IMBG290 became cultivable upon plant inoculation by nonpathogenic bacteria. I observed that the composition of the endophyte community changed in response to Methylobacterium sp. IMBG290 inoculation in shoot tissues and correlated with potato disease resistance and growth promotion. Therefore, the activation of endophytic bacterial populations as a putative mechanism of plant disease resistance was proposed. Endophytes have a high agricultural potential. Growth- and resistance-promoting capacities of Methylobacterium sp. IMBG290 on potato were highly variable depending on the cultivar, pathogen, inoculum density, and environmental conditions. Context-dependent efficacy requires more attention when designing complex microbial inoculants capable influencing positively plant growth, resistance, and nutritional properties. / Tiivistelmä Kasvia voidaan pitää superorganismina, joka koostuu kasvista itsestään ja lukuisista pro-ja eukaryottisista mikrobipopulaatioista. Kasvin ja sen sisäosia asuttavien endofyyttisten mikro-organismien väliset vuorovaikutukset ovat yleensä kommensalistisia tai mutualistisia. Endofyyttien rooli kasvin puolustuksessa on kuitenkin huonosti tunnettu, koska reitit tiedetään vain osittain eikä järjestelmällisiä vasteita usein havaita. Tämän väitöskirjatyön tavoitteena oli tutkia endofyyttisen Methylobacterium sp. IMBG290-kannan kykyä vahvistaa perunan (Solanum tuberosum L.) puolustusta. Tautia aiheuttamattomat bakteerit kykenevät vahvistamaan kasvien puolustusta, mikä auttaa isäntäkasvia säästämään energiaa ja nopeuttamaan puolustusreaktiota patogeenihyökkäyksen aikana. Methylobacterium sp. IMBG290-kannan vahvistuskyvyn osoitettiin perustuvan salisyylihappo- ja jasmonaatti/etyleeni-riippuvaisten puolustusreittien aktivoimiseen patogeeni-istutuksen jälkeen. Antioksidanttijärjestelmän lievä aktivoituminen voi myös vaikuttaa kannan aiheuttamaan vastustuskyvyn lisääntymiseen. Suurimmalle osalle bakteeriendofyyteistä ‘elävä mutta viljelemätön’-olotila on luultavasti selviytymisstrategia. Patogeenihyökkäys tai muutokset ympäristössä voivat aktivoida tällaiset hiljaiset olomuodot. Methylobacterium sp. IMBG290-kanta muuttui viljeltävissä olevaan muotoon kun kasviin istutettiin tautia aiheuttamaton bakteeri. Selvitin, että endofyytti-yhteisön koostumus muuttuu vasteena Methylobacterium sp. IMBG290-kannan istuttamiseen kasvin verson solukoissa, korreloiden lisääntyneen perunan vastustuskyvyn ja kasvun kanssa. Siksi endofyyttisten bakteeripopulaatioiden aktivoitumista esitettiin uutena kasvin puolustusmekanismina. Endofyyteillä on suuret mahdollisuudet maataloudessa. Methylobacterium sp. IMBG290-kannan kasvua ja vastustuskykyä lisäävät ominaisuudet perunalla vaihtelivat lajikkeen, patogeenin, lisätyn bakteeriympin ja ympäristöolosuhteiden mukaan. Suunniteltaessa monimutkaisia bakteeriymppejä kasvien kasvin, vastustuskyvyn ja ravintosisällön lisäämiseksi, täytyy tällainen tilanteesta riippuva tehokkuus ottaa enemmän huomioon.

biological control

endophytes

microbial community

priming

viable but nonculturable state

biologinen torjunta

elävä mutta viljelemätön olomuoto

endofyytit

mikrobiyhteisö

puolustuskyvyn vahvistaminen

Methylobacterium

Solanum tuberosum L.

葉面メタノール資化性細菌の栄養要求性および競合的増殖特性と環境適応の分子機構

𠮷田, 裕介

25 March 2019

本文PDFには「吉田 裕介」と記載 / 京都大学 / 0048 / 新制・課程博士 / 博士(農学) / 甲第21828号 / 農博第2341号 / 新制||農||1067(附属図書館) / 学位論文||H31||N5200(農学部図書室) / 京都大学大学院農学研究科応用生命科学専攻 / (主査)教授 阪井 康能, 教授 小川 順, 教授 矢﨑 一史 / 学位規則第4条第1項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

Methylobacterium spp.

パントテン酸要求性

メタノール代謝

KaiCファミリータンパク質

温度依存的UV耐性

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