Monitoring and control of Plasmodiophora brassicae in spring oilseed brassica crops /

Wallenhammar, Ann-Charlotte,

January 1900

Diss. (sammanfattning) Uppsala : Sveriges lantbruksuniv. / Härtill 5 uppsatser.

Molecular characterisation of the causal agent of bacterial leaf streak of maize / Nicolaas Johannes Jacobus Niemann

Niemann, Nicolaas Johannes Jacobus

January 2015

All members of the genus Xanthomonas are considered to be plant pathogenic, with specific pathovars infecting several high value agricultural crops. One of these pathovars, X. campestris pv. zeae (as this is only a proposed name it will further on be referred to as Xanthomonas BLSD) the causal agent of bacterial leaf steak of maize, has established itself as a widespread significant maize pathogen within South Africa. Insufficient information about the present distribution of the pathogen is available. The main aim of the study was thus to isolate and characterise the pathogen using molecular methods. Results demonstrated that the causal agent of bacterial leaf streak disease (Xanthomonas BLSD: potentially X. campestris pv. zeae) was widely distributed within the major maize cultivation regions of South Africa. Most of the isolates collected originated from the Highveld maize production provinces (North West, Free State, Gauteng and Mpumalanga provinces) as well as from irrigated maize fields in the Northern Cape province. The XgumD gene marker was used to determine if the isolates belonged to the genus Xanthomonas. The gumD gene fragment is located within the gumB-gumM region of the operon and is conserved among Xanthomonas species. This gene fragment is partially responsible for xanthan production. This marker was amplified from all isolates and a selected number were sequenced. The marker was only able to confirm that the causal agent was a member of the genus Xanthomonas. PCR methods were used for the characterisation of the isolates. This included PCR and sequencing of ribosomal RNA- gyraseB and gumD genes. A fingerprinting method BOX-PCR was also employed. Good quality DNA of sufficient quantities was obtained from the various isolates. Amplification produced no non-specific amplification products. This resulted in good quality sequences that could be analysed using bioinformatics tools. Phylogenetic analyses of the ribosomal RNA and gyraseB genes could not detect differences amongst the 47 Xanthomonas BLSD isolates. However, these genes were able to distinguish between the type strain of these isolates and various Xanthomonas species and pathovars. From all three neighbour joining trees the Xanthomonas BLSD isolates had close association with X. axonopodis pv. vasculorum strain ATCC 35938. For the 16S rRNA gene there exists no sequence differences between Xanthomonas BLSD and X. axonopodis pv. vasculorum strain ATCC 35938. A single nucleotide difference was observed between Xanthomonas BLSD and X. axonopodis pv. vasculorum strain ATCC 35938 for the 23S rRNA gene. The gyraseB gene detected a total of six nucleotide variations between these two Xanthomonas species. For all of the phylogenetic trees there was no clustering of Xanthomonas BLSD with X. campestris pathovars. Genetic profiling (via BOX-PCR) based on present/absent analysis revealed no variations amongst the Xanthomonas BLSD isolates. All isolates shared an identical pattern produced by 12 distinct PCR products. This profiling technique did differentiate between the isolates of Xanthomonas BLSD and X. axonopodis pv. vasculorum strain ATCC 35938. Their profiles shared common bands, but differed in the number and overall pattern of the bands. These results suggest two main conclusions: (i) Xanthomonas BLSD has a clonal origin with geographical separation not impacting genetic variation. The fact that all the isolates appear to be clonal may imply that when resistant maize cultivars are developed these should be resistant to all isolates of the pathovar irrespective of their geographical origin. This is a suggestion that will have to be corroborated using more isolates and additional genetic fingerprinting techniques (ii) the Xanthomonas BLSD isolates from this study may not belong to X. campestris. Further studies using other markers should be conducted to determine the real identity of Xanthomonas BLSD. / MSc Environmental Sciences, North-West University, Potchefstroom Campus, 2015

Xanthomonas

Bacterial leaf streak disease

X. campestris pv. zeae

Maize

Ribosomal RNA

GyraseB

BOX-PCR profiling

Clonal origin

Molecular characterisation of the causal agent of bacterial leaf streak of maize / Nicolaas Johannes Jacobus Niemann

Niemann, Nicolaas Johannes Jacobus

January 2015

All members of the genus Xanthomonas are considered to be plant pathogenic, with specific pathovars infecting several high value agricultural crops. One of these pathovars, X. campestris pv. zeae (as this is only a proposed name it will further on be referred to as Xanthomonas BLSD) the causal agent of bacterial leaf steak of maize, has established itself as a widespread significant maize pathogen within South Africa. Insufficient information about the present distribution of the pathogen is available. The main aim of the study was thus to isolate and characterise the pathogen using molecular methods. Results demonstrated that the causal agent of bacterial leaf streak disease (Xanthomonas BLSD: potentially X. campestris pv. zeae) was widely distributed within the major maize cultivation regions of South Africa. Most of the isolates collected originated from the Highveld maize production provinces (North West, Free State, Gauteng and Mpumalanga provinces) as well as from irrigated maize fields in the Northern Cape province. The XgumD gene marker was used to determine if the isolates belonged to the genus Xanthomonas. The gumD gene fragment is located within the gumB-gumM region of the operon and is conserved among Xanthomonas species. This gene fragment is partially responsible for xanthan production. This marker was amplified from all isolates and a selected number were sequenced. The marker was only able to confirm that the causal agent was a member of the genus Xanthomonas. PCR methods were used for the characterisation of the isolates. This included PCR and sequencing of ribosomal RNA- gyraseB and gumD genes. A fingerprinting method BOX-PCR was also employed. Good quality DNA of sufficient quantities was obtained from the various isolates. Amplification produced no non-specific amplification products. This resulted in good quality sequences that could be analysed using bioinformatics tools. Phylogenetic analyses of the ribosomal RNA and gyraseB genes could not detect differences amongst the 47 Xanthomonas BLSD isolates. However, these genes were able to distinguish between the type strain of these isolates and various Xanthomonas species and pathovars. From all three neighbour joining trees the Xanthomonas BLSD isolates had close association with X. axonopodis pv. vasculorum strain ATCC 35938. For the 16S rRNA gene there exists no sequence differences between Xanthomonas BLSD and X. axonopodis pv. vasculorum strain ATCC 35938. A single nucleotide difference was observed between Xanthomonas BLSD and X. axonopodis pv. vasculorum strain ATCC 35938 for the 23S rRNA gene. The gyraseB gene detected a total of six nucleotide variations between these two Xanthomonas species. For all of the phylogenetic trees there was no clustering of Xanthomonas BLSD with X. campestris pathovars. Genetic profiling (via BOX-PCR) based on present/absent analysis revealed no variations amongst the Xanthomonas BLSD isolates. All isolates shared an identical pattern produced by 12 distinct PCR products. This profiling technique did differentiate between the isolates of Xanthomonas BLSD and X. axonopodis pv. vasculorum strain ATCC 35938. Their profiles shared common bands, but differed in the number and overall pattern of the bands. These results suggest two main conclusions: (i) Xanthomonas BLSD has a clonal origin with geographical separation not impacting genetic variation. The fact that all the isolates appear to be clonal may imply that when resistant maize cultivars are developed these should be resistant to all isolates of the pathovar irrespective of their geographical origin. This is a suggestion that will have to be corroborated using more isolates and additional genetic fingerprinting techniques (ii) the Xanthomonas BLSD isolates from this study may not belong to X. campestris. Further studies using other markers should be conducted to determine the real identity of Xanthomonas BLSD. / MSc Environmental Sciences, North-West University, Potchefstroom Campus, 2015

Xanthomonas

Bacterial leaf streak disease

X. campestris pv. zeae

Maize

Ribosomal RNA

GyraseB

BOX-PCR profiling

Clonal origin

Estudos biofísicos e estruturais de xilose isomerases para produção de etanol de segunda geração / Structural and biophysical studies of xylose isomerases for production of second generation ethanol

Reis, Caio Vinicius dos

03 August 2012

A demanda por combustíveis baseados em recursos renováveis é alta nos dias de hoje e tende a aumentar bastante no futuro. No Brasil, indústrias de biocombustíveis produzem principalmente etanol a partir cana-de-açúcar. A biomassa lignocelulósica, compreendendo resíduos de culturas, resíduos florestais, sólidos urbanos, é explorada como um elevado potencial secundário na produção de biocombustíveis, mesmo na categoria de subprodutos, eliminando assim os usos competitivos. Para tornar a produção de etanol de segunda geração a partir da cana-de-açúcar economicamente sustentável, é imprescindível utilizar fração hemicelulósica da biomassa, o que corresponde de 20% a 25%, sendo a xilose seu principal componente. Saccharomyces cerevisiae não fermenta xilose, entretanto, xilulose pode ser fermentada. Portanto a busca e o estudo de enzimas que procedem com a conversão de xilose em xilulose (em condições sinérgicas às da fermentação alcoólica) se torna de extrema importância no que se refere ao aproveitamento da hemicelulose para a geração de etanol de segunda-geração. Xilose isomerases (XI) de três microorganismos diferentes (de Xanthomonas campestris pv. Campestris [Xyl_Xcc], Bifidobacterium adolescentis [Xyl_Bad] e de Lactobacillus crispatus [Xyl_LCr]) são o objeto de estudo deste projeto. A partir do conteúdo genômico desses três microorganismos, foi realizada a amplificação do gene xylA (que codifica para XI), via Clonagem Independente de Ligação/Ligase (do inglês, LIC) e clonagem em vetor de expressão pPROEX HTa adaptado para LIC, e superexpressão em Escherichia coli BL21 (DE3). As XIs foram então extraídas e purificadas por cromatografia de afinidade com metal quelado, seguida de cromatografia de exclusão molecular. Nessa etapa, as massas moleculares e raios hidrodinâmicos (RH) foram estimados, tanto por cromatografia de exclusão molecular quanto em gel nativo, revelando que Xyl_Xcc e Xyl_Bad se apresentam diméricas enquanto Xyl_LCr monomérica. Subseqüentemente, foram realizados testes de atividade em diferentes condições (pHs e temperaturas), para mapear condições ótimas de reação. A atividade ótima de ambas Xyl_Xcc e Xyl_Bad foi ao redor do pH 5,5, com temperaturas ótimas girando em torno de 60°C. Xyl_LCr se mostrou sem atividade. Além disso, o monitoramento da estabilidade térmica das XIs foi realizado através de espalhamento de raios-X a baixo ângulo (SAXS) e espectroscopia de dicroísmo circular (CD). As estabilidades térmicas da estrutura secundária e da estrutura terciária como um todo parecem aumentadas com a elevação do pH. Entretanto, isso não condiz com perfil de atividade dessas enzimas, visto que a atividade ótima se apresentou deslocada para valores de pHs ácidos. Modelos de baixa resolução obtidos por SAXS foram alinhados e sobrepostos às estruturas de alta resolução de proteínas homólogas, revelando um bom ajuste da forma tetramérica para Xyl_Bad e Xyl_Xcc e monomérica para Xyl_LCr. Portanto, levanta-se a hipótese da dissociação do tetrâmero em dímeros, possivelmente causado pela interação (mecânica) com o sistema de emaranhados do gel nativo e com os poros da coluna de exclusão molecular. Foram obtidos cristais de Xyl_Bad e Xyl_Xcc, e esses foram submetidos à difração de raios-X, revelando a presença de um domínio conservado na maioria das XIs reportadas, formado por um barril α⁄β (N-terminal). As estruturas estão em fase avançada de refinamento. Ao final, são propostos estudos futuros que complementem os resultados apresentados, e que poderão comprovar as hipóteses criadas a partir deste trabalho. / The demand for fuels based on renewable resources is high these days and tends to increase considerably in the future. In Brazil, biofuels industries mainly produce ethanol from sugarcane. The lignocellulosic biomass, including crop residues, forest residues, urban solids, is explored as a secondary high potential for biofuels production, in the same category of products, thus eliminating the competing uses. To make the production of sugarcane secondgeneration ethanol economically sustainable, it is essential to use the hemicellulose fraction of the biomass, which corresponds from 20% to 25%, the main component represented by xylose. Saccharomyces cerevisiae doesnt ferment xylose, however, xylulose may befermented. Therefore the research and study of enzymes that carry out the conversion of xylose to xylulose (in synergistic fermentation conditions) become very important with regard to the use of hemicellulose in second-generation ethanol production. Xylose isomerases (XI) from three different microorganisms (Xanthomonas campestris pv. Campestris [Xyl_Xcc], Bifidobacterium adolescentis [Xyl_Bad] and Lactobacillus crispatus [Xyl_Lcr]) are the target of this project. From the genomic content of these three organisms, gene amplification of the xylA gene (encoding XI) was performed, via Ligand / Ligation Independent Cloning (LIC) and cloning in LIC adapted pPROEX HTA expression vector , with overexpression in Escherichia coli BL21 (DE3). The XIs were then extracted and purified by affinity metal quelate chromatography, followed by size exclusion chromatography. At that time, the molecular weight and hydrodynamic radius (RH) were estimated both by size exclusion chromatography and native gel, suggesting that Xyl_Xcc and Xyl_Bad were as dimers in solution, while Xyl_Lcr as monomer. Subsequently, activity assays were performed in different conditions (pH and temperature), to find out the optimum reaction conditions. The optimal activity of both Xyl_Xcc and Xyl_Bad was around pH 5.5, with optimum temperatures hovering around 60°C. Xyl_Lcr showed no activity. Furthermore, monitoring the thermalstability of XIs was performed by small angle X-ray scattering (SAXS) and circular dichroism spectroscopy (CD). The thermal stabilities of the secondary structure and tertiary structure as a whole appear increased with increasing pH. However, this does not match with the activity profiles of these enzymes, since they showed optimal activity shifted to acidic pHs. SAXS low-resolution models were aligned and superimposed on high resolution structures of homologous proteins, revealing a concordance of the tetrameric form of Xyl_Xcc and Xyl_Bad in solution and monomeric form of Xyl_Lcr. Thus arises the possibility of dissociation of tetramer into dimers, possibly caused by interaction (mechanical) system with the tangles of native gel and pores of molecular exclusion column. Crystals were obtained from Xyl_Bad and Xyl_Xcc, and these were subjected to X-ray diffraction to generate high resolution structures, revealing the presence of a conserved domain in the most reported XIs, consisting of a α⁄ β barrel (N-terminus). The structures are in an advanced stage of refinement. Finally, future studies are proposed to complement the results presented, which may prove the hypotheses generated from this work.

Xanthomonas campestri

Bifidobacterium adolescentis

Lactobacillus crispatus

Bifidobacterium adolescentis

Circular dichroism

Cristalografia

Crystallography

Dicroísmo circular

Lactobacillus crispatus

SAXS

SAXS

Xanthomonas campestris

Xilose isomerase

Xylose isomerase

Limpeza clonal de videira com cancro-bacteriano e sobrevivência de Xanthomonas campestris pv. viticola em tecidos infectados

SILVA, Adriano Márcio Freire

26 February 2009

Submitted by (lucia.rodrigues@ufrpe.br) on 2017-02-20T14:28:26Z No. of bitstreams: 1 Adriano Marcio Freire da Silva.pdf: 233973 bytes, checksum: 8365664074820b5955fb940c37b47616 (MD5) / Made available in DSpace on 2017-02-20T14:28:26Z (GMT). No. of bitstreams: 1 Adriano Marcio Freire da Silva.pdf: 233973 bytes, checksum: 8365664074820b5955fb940c37b47616 (MD5) Previous issue date: 2009-02-26 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / Bacterial canker (Xanthomonas campestris pv. viticola) (Xcv) caused great damage to the grapevine cultivation in the Vale do Submédio São Francisco. In the first paper techniques of in vitro tissue culture in modified Galzy medium (MGM) were studied in order to eliminate Xcv from ‘Red Globe’ grapevine plants. The first experiment aimed to select the ideal length of apex and axillary’s buds for cultivation in MGM; the second to verify the effect of the thermotherapy (38ºC/four weeks) associated to the MGM cultivation; and the third intended to test antibiotics to eliminate Xcv from explants taken from infected grapevines. All plants obtained without contamination in vitro and culture media contaminated were indexed by using the semi-selective culture media nutrient agar-dextrose-yeast extract-ampicilin (NYDAM) followed by a pathogenicity test. The cultivation of 3 mm explants permitted to obtain plants free of bacteria with regeneration 14.3 times higher than 1 mm explants. The thermotherapy of infected plants associated to the in vitro culture did not eliminate the pathogen. The cultivationof 10 mm explants for 40 days in MGM+cefotaxime (300 mg L-1) eliminated Xcv from grapevine plants. The indexation in NYDAM permitted the visualization of specific Xcv growing. The indexation of in vitro regenerated grapevine plants for Xcv infection by using NYDAM medium is an economic and efficient alternative for production of selected plants. It is known that pruning residues of infected plants abandoned in the grapevine plantations are important source of disease primary inoculum and that burning is recommended as control measure. Thus the second paper investigated the survival of Xcv in infected tissues and the use of composting to eradicate Xcv associated with crop residues. Plants of grapevine “Festival’ were inoculated with a mutant resistant to rifampicin Xcv2Rif and at the time they presented high disease severity, fragmented shoots and entire leaves were placed in mesh bags. These bagswere placed on the surface of microplots in experimental area (experiment 1) and inside compost piles of grapevine pruning residues (experiment 2). The survival of Xcv2Rif in grapevine infected tissue was monitored in the culture medium NYDAM + rifampicin (0,1g L-1) + azoxystrobim (0,16 g L-1), at 8 and 10 days intervals from 1 and 2 experiment setting, respectively. In the experiment 1 tissue decomposition was also evaluated and in the experiment 2, pile temperature curves, phenolyc content, and fungi and bacteria antagonistic to Xcv2Rif were analyzed. The pathogen survived in high densities (104 a 106 CFU g-1) for at least 80 days in grapevine-infected tissues on soil surface. Then grapevine-pruning residues are important inoculum source for other plants in the vineyard. The composting process eliminated Xcv2Rif from crop residues in 10 days due to high temperatures in piles, liberation of phenolyc compounds during the process and microbial antagonism. Therefore the composting is a viable and safemethod to manage pruning residues in grapevine plantations without problems of Xcv survival and without losing of an important source of organic matter for the culture. / O cancro-bacteriano causado por Xanthomonas campestris pv. viticola (Xcv) é responsável por grandes prejuízos ao cultivo de videira no Vale do Submédio São Francisco. No primeiro trabalho, técnicas de cultura de tecidos em meio de Galzy modificado (MGM) foram estudadas visando eliminar Xcv de mudas de videira ‘Red Globe’. O primeiro experimento visou selecionar o tamanho ideal de ápices e gemas axilares para o cultivo em MGM; o segundo, verificar o efeito da termoterapia de mudas (38ºC/quatro semanas) associada ao cultivo em MGM; e o terceiro, testar antibióticos para eliminação de Xcv em explantes oriundos de videiras infectadas. Todas as plantas obtidas sem contaminação in vitro e meios de cultivo contaminados foram indexados utilizando o meio ágar nutritivo-dextrose-extrato de leveduraampicilina (NYDAM) seguindo-se teste de patogenicidade. O cultivo de explantes com 3 mm possibilitou a obtenção de plantas livres da bactéria, com regeneração 14,3 vezes maior que explantes de 1 mm de comprimento. A termoterapia de mudas infectadas associada ao cultivo in vitro não eliminou o patógeno. O cultivo de explantes com 10 mm durante 40 dias em MGM+cefotaxima (300 mg L-1) proporcionou limpeza clonal das mudas. A indexação em NYDAM permitiu a visualização do crescimento de Xcv. A indexação de plantas de videira regeneradas in vitro quanto à infecção por Xcv utilizando NYDAM é uma alternativa econômica e eficiente para produção de plantas selecionadas. Sabe-se que restos de poda de plantas infectadas deixados no parreiral são importante fonte de inóculo primário da doença, recomendando-se a queima como medida de controle. No segundo trabalho, investigou-se a sobrevivência de Xcv em tecidos de videira infectados e o uso da compostagem para erradicação de Xcv em associação com restos culturais. Mudas de videira ‘Festival’ foram inoculadas com omutante resistente a rifampicina Xcv2Rif e quando apresentavam alta severidade da doença, ramos fragmentados e folhas inteiras foram acondicionados em bolsas de malha plástica. Estas foram alocadas na superfície de microparcelas em área experimental (experimento 1) e no interior de pilhas de compostagem de restos de poda de videira (experimento 2). A sobrevivência de Xcv2Rif em tecidos infectados de videira foi monitorada em meio NYDAM + rifampicina (0,1g L-1) + azoxystrobim (0,16 g L-1), a intervalos de 8 e 10 dias a partir do início do experimento, respectivamente nos experimentos 1 e 2. No experimento 1, foi também avaliada a decomposição de tecidos e no experimento 2, as curvas de temperatura das pilhas, conteúdo de fenóis, e presença de microbiota fúngica e bacteriana antagonista a Xcv2Rif. O patógeno sobreviveu em altas densidades (104 a 106 UFC g-1) por pelo menos 80 dias em tecidos infectados de videira na superfície do solo. Portanto, restos de poda de videira constituem importante fonte de inóculo primário para infecção de outras plantas no parreiral. O processo de compostagem eliminou Xcv2Rif de restos culturais em 10 dias, devido às altas temperaturas alcançadas pelas pilhas, liberação de compostos fenólicos durante o processo e antagonismo microbiano. Desta forma, a compostagem constitui uma maneira viável e segura de manejar os restos de poda em parreirais, sem perigo de sobrevivência de Xcv e sem que haja a perda de uma importante fonte de matéria orgânica para a cultura.

Xanthomonas campestris pv. viticola

Videira

Erradiação

Epidemiologia

Cancro-bacteriano

Cultivo in vitro

Vitis vinifera

Fitopatologia

Bacterial canker

Crop residues

Epidemiology

Erradication

FITOSSANIDADE::FITOPATOLOGIA

Secretoma da bactéria fitopatogênica Xanthomonas citri subsp. citri /

Ferreira, Rafael Marini.

January 2009

Resumo: O cancro cítrico está entre as principais doenças que afetam a produção de laranjas no Brasil e é causado pela bactéria fitopatogênica gram-negativa Xanthomonas citri subsp. citri (Xac). O presente trabalho teve por objetivo analisar a expressão diferencial de proteínas secretadas pela bactéria selvagem e por um mutante (02H02) assintomático, que teve a proteína HrpB4, que participa de seu sistema de secreção tipo III (SSTT) inativada, em condição de cultivo em meio rico CN e em meio XAM1 indutor de hipersensibilidade e patogenicidade (genes hrp). As proteínas secretadas em meio de cultura foram extraídas pela ação do ácido tricloroacético (TCA) e identificadas através de espectrometria de massas. Tais análises identificaram 55 proteínas diferentes secretadas em ambos os meios de cultura, tanto para Xac quanto para 02H02, de modo que 13 destas proteínas são comuns entre a Xac e seu mutante cultivados em XAM1 e 14 são exclusivas para Xac cultivada em XAM1, as quais deixaram de ser secretadas no 02H02. Proteínas relacionadas aos genes reguladores do SSTT foram detectadas em condição infectante para ambas as bactérias, demonstrando a eficácia do meio de cultura XAM1 em induzir Hrp. Foi observado que diversas proteínas secretadas pelo sistema de secreção tipo II (SSTD) em condição infectante para Xac e seu mutante possuem um papel ativo na degradação das paredes celulares do hospedeiro e podem ser reguladas por proteínas controladoras do SSTT. Fatores de sinalização difusíveis produzidos por Xac aparentemente sofreram alteração em sua secreção no mutante devido à inativação do pilus do SSTT, demonstrando a relação dessa molécula com o SSTT. A não detecção de proteínas secretadas diretamente pelo SSTT denota que as mesmas podem estar sendo secretadas no interior de vesículas lipídicas de membrana externa, assim como ocorre em Xanthomonas campestris / Abstract: Citrus canker is among the major diseases which affect citrus production in Brazil and is caused by the gram-negative phytopathogenic bacterium Xanthomonas citri subsp. citri (Xac). This work aimed to analyze the differential expression of secreted proteins by the wild bacterium and by an asymptomatic mutant (02H02), lacking the type III secretion system (TTSS) protein HrpB4, in rich cultivation medium NB and in the hrp inducing medium XAM1. The proteins secreted in all culture media have been extracted by trichloroacetic acid based protocols (TCA) and identified using mass spectrometry. The analysis identified 55 different proteins secreted in both culture medium for Xac and 02H02, of which 13 are common among Xac and its mutant cultivated in XAM1 and 14 proteins are exclusively secreted by Xac cultivated in XAM1. Proteins related to the TTSS regulatory genes have been detected in infecting condition in both bacteria, showing the effectiveness of XAM1 hrp inducing medium. It has been observed that several type II secretion system's secreted proteins showed an active role in host cell wall degradation and may be regulated by type III secretion system's proteins in Xac and 02H02 in infecting condition. Diffusible signal factors produced by wild Xac apparently suffered an altered secretion in the mutant due the inactivation of the type three secretion system's pilus, showing the relationship of this molecule with this secretion system. The lack of detection of proteins secreted by the TTSS denote that these proteins may be secreted in the interior of outer membrane lipid vesicles, just like it was verified in Xanthomonas campestris / Orientador: Jesus Aparecido Ferro / Coorientador: Julio Cezar Franco de Oliveira / Banca: Maria Teresa Marques Novo / Banca: Leandro Márcio Moreira / Mestre

Cancro citrico.

Xanthomonas campestris.

Plant pathogen interactions. eng

Pathogenicity inducing medium. eng

Secreted proteins. eng

Citrus canker proteome. eng

Type III secretion systems (TTSS) eng

Secretoma da bactéria fitopatogênica Xanthomonas citri subsp. citri

Ferreira, Rafael Marini [UNESP]

05 November 2009

Made available in DSpace on 2014-06-11T19:26:09Z (GMT). No. of bitstreams: 0 Previous issue date: 2009-11-05Bitstream added on 2014-06-13T20:33:53Z : No. of bitstreams: 1 ferreira_rm_me_jabo.pdf: 510263 bytes, checksum: 543073ee3d6f55d77bb1607889dc966f (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O cancro cítrico está entre as principais doenças que afetam a produção de laranjas no Brasil e é causado pela bactéria fitopatogênica gram-negativa Xanthomonas citri subsp. citri (Xac). O presente trabalho teve por objetivo analisar a expressão diferencial de proteínas secretadas pela bactéria selvagem e por um mutante (02H02) assintomático, que teve a proteína HrpB4, que participa de seu sistema de secreção tipo III (SSTT) inativada, em condição de cultivo em meio rico CN e em meio XAM1 indutor de hipersensibilidade e patogenicidade (genes hrp). As proteínas secretadas em meio de cultura foram extraídas pela ação do ácido tricloroacético (TCA) e identificadas através de espectrometria de massas. Tais análises identificaram 55 proteínas diferentes secretadas em ambos os meios de cultura, tanto para Xac quanto para 02H02, de modo que 13 destas proteínas são comuns entre a Xac e seu mutante cultivados em XAM1 e 14 são exclusivas para Xac cultivada em XAM1, as quais deixaram de ser secretadas no 02H02. Proteínas relacionadas aos genes reguladores do SSTT foram detectadas em condição infectante para ambas as bactérias, demonstrando a eficácia do meio de cultura XAM1 em induzir Hrp. Foi observado que diversas proteínas secretadas pelo sistema de secreção tipo II (SSTD) em condição infectante para Xac e seu mutante possuem um papel ativo na degradação das paredes celulares do hospedeiro e podem ser reguladas por proteínas controladoras do SSTT. Fatores de sinalização difusíveis produzidos por Xac aparentemente sofreram alteração em sua secreção no mutante devido à inativação do pilus do SSTT, demonstrando a relação dessa molécula com o SSTT. A não detecção de proteínas secretadas diretamente pelo SSTT denota que as mesmas podem estar sendo secretadas no interior de vesículas lipídicas de membrana externa, assim como ocorre em Xanthomonas campestris / Citrus canker is among the major diseases which affect citrus production in Brazil and is caused by the gram-negative phytopathogenic bacterium Xanthomonas citri subsp. citri (Xac). This work aimed to analyze the differential expression of secreted proteins by the wild bacterium and by an asymptomatic mutant (02H02), lacking the type III secretion system (TTSS) protein HrpB4, in rich cultivation medium NB and in the hrp inducing medium XAM1. The proteins secreted in all culture media have been extracted by trichloroacetic acid based protocols (TCA) and identified using mass spectrometry. The analysis identified 55 different proteins secreted in both culture medium for Xac and 02H02, of which 13 are common among Xac and its mutant cultivated in XAM1 and 14 proteins are exclusively secreted by Xac cultivated in XAM1. Proteins related to the TTSS regulatory genes have been detected in infecting condition in both bacteria, showing the effectiveness of XAM1 hrp inducing medium. It has been observed that several type II secretion system’s secreted proteins showed an active role in host cell wall degradation and may be regulated by type III secretion system’s proteins in Xac and 02H02 in infecting condition. Diffusible signal factors produced by wild Xac apparently suffered an altered secretion in the mutant due the inactivation of the type three secretion system’s pilus, showing the relationship of this molecule with this secretion system. The lack of detection of proteins secreted by the TTSS denote that these proteins may be secreted in the interior of outer membrane lipid vesicles, just like it was verified in Xanthomonas campestris

Cancro cítrico

Xanthomonas campestris

Secretoma

Plant pathogen interactions

Pathogenicity inducing medium

Secreted proteins

Citrus canker proteome

Type III secretion systems (TTSS)

Estudos biofísicos e estruturais de xilose isomerases para produção de etanol de segunda geração / Structural and biophysical studies of xylose isomerases for production of second generation ethanol

Caio Vinicius dos Reis

03 August 2012

A demanda por combustíveis baseados em recursos renováveis é alta nos dias de hoje e tende a aumentar bastante no futuro. No Brasil, indústrias de biocombustíveis produzem principalmente etanol a partir cana-de-açúcar. A biomassa lignocelulósica, compreendendo resíduos de culturas, resíduos florestais, sólidos urbanos, é explorada como um elevado potencial secundário na produção de biocombustíveis, mesmo na categoria de subprodutos, eliminando assim os usos competitivos. Para tornar a produção de etanol de segunda geração a partir da cana-de-açúcar economicamente sustentável, é imprescindível utilizar fração hemicelulósica da biomassa, o que corresponde de 20% a 25%, sendo a xilose seu principal componente. Saccharomyces cerevisiae não fermenta xilose, entretanto, xilulose pode ser fermentada. Portanto a busca e o estudo de enzimas que procedem com a conversão de xilose em xilulose (em condições sinérgicas às da fermentação alcoólica) se torna de extrema importância no que se refere ao aproveitamento da hemicelulose para a geração de etanol de segunda-geração. Xilose isomerases (XI) de três microorganismos diferentes (de Xanthomonas campestris pv. Campestris [Xyl_Xcc], Bifidobacterium adolescentis [Xyl_Bad] e de Lactobacillus crispatus [Xyl_LCr]) são o objeto de estudo deste projeto. A partir do conteúdo genômico desses três microorganismos, foi realizada a amplificação do gene xylA (que codifica para XI), via Clonagem Independente de Ligação/Ligase (do inglês, LIC) e clonagem em vetor de expressão pPROEX HTa adaptado para LIC, e superexpressão em Escherichia coli BL21 (DE3). As XIs foram então extraídas e purificadas por cromatografia de afinidade com metal quelado, seguida de cromatografia de exclusão molecular. Nessa etapa, as massas moleculares e raios hidrodinâmicos (RH) foram estimados, tanto por cromatografia de exclusão molecular quanto em gel nativo, revelando que Xyl_Xcc e Xyl_Bad se apresentam diméricas enquanto Xyl_LCr monomérica. Subseqüentemente, foram realizados testes de atividade em diferentes condições (pHs e temperaturas), para mapear condições ótimas de reação. A atividade ótima de ambas Xyl_Xcc e Xyl_Bad foi ao redor do pH 5,5, com temperaturas ótimas girando em torno de 60°C. Xyl_LCr se mostrou sem atividade. Além disso, o monitoramento da estabilidade térmica das XIs foi realizado através de espalhamento de raios-X a baixo ângulo (SAXS) e espectroscopia de dicroísmo circular (CD). As estabilidades térmicas da estrutura secundária e da estrutura terciária como um todo parecem aumentadas com a elevação do pH. Entretanto, isso não condiz com perfil de atividade dessas enzimas, visto que a atividade ótima se apresentou deslocada para valores de pHs ácidos. Modelos de baixa resolução obtidos por SAXS foram alinhados e sobrepostos às estruturas de alta resolução de proteínas homólogas, revelando um bom ajuste da forma tetramérica para Xyl_Bad e Xyl_Xcc e monomérica para Xyl_LCr. Portanto, levanta-se a hipótese da dissociação do tetrâmero em dímeros, possivelmente causado pela interação (mecânica) com o sistema de emaranhados do gel nativo e com os poros da coluna de exclusão molecular. Foram obtidos cristais de Xyl_Bad e Xyl_Xcc, e esses foram submetidos à difração de raios-X, revelando a presença de um domínio conservado na maioria das XIs reportadas, formado por um barril α⁄β (N-terminal). As estruturas estão em fase avançada de refinamento. Ao final, são propostos estudos futuros que complementem os resultados apresentados, e que poderão comprovar as hipóteses criadas a partir deste trabalho. / The demand for fuels based on renewable resources is high these days and tends to increase considerably in the future. In Brazil, biofuels industries mainly produce ethanol from sugarcane. The lignocellulosic biomass, including crop residues, forest residues, urban solids, is explored as a secondary high potential for biofuels production, in the same category of products, thus eliminating the competing uses. To make the production of sugarcane secondgeneration ethanol economically sustainable, it is essential to use the hemicellulose fraction of the biomass, which corresponds from 20% to 25%, the main component represented by xylose. Saccharomyces cerevisiae doesnt ferment xylose, however, xylulose may befermented. Therefore the research and study of enzymes that carry out the conversion of xylose to xylulose (in synergistic fermentation conditions) become very important with regard to the use of hemicellulose in second-generation ethanol production. Xylose isomerases (XI) from three different microorganisms (Xanthomonas campestris pv. Campestris [Xyl_Xcc], Bifidobacterium adolescentis [Xyl_Bad] and Lactobacillus crispatus [Xyl_Lcr]) are the target of this project. From the genomic content of these three organisms, gene amplification of the xylA gene (encoding XI) was performed, via Ligand / Ligation Independent Cloning (LIC) and cloning in LIC adapted pPROEX HTA expression vector , with overexpression in Escherichia coli BL21 (DE3). The XIs were then extracted and purified by affinity metal quelate chromatography, followed by size exclusion chromatography. At that time, the molecular weight and hydrodynamic radius (RH) were estimated both by size exclusion chromatography and native gel, suggesting that Xyl_Xcc and Xyl_Bad were as dimers in solution, while Xyl_Lcr as monomer. Subsequently, activity assays were performed in different conditions (pH and temperature), to find out the optimum reaction conditions. The optimal activity of both Xyl_Xcc and Xyl_Bad was around pH 5.5, with optimum temperatures hovering around 60°C. Xyl_Lcr showed no activity. Furthermore, monitoring the thermalstability of XIs was performed by small angle X-ray scattering (SAXS) and circular dichroism spectroscopy (CD). The thermal stabilities of the secondary structure and tertiary structure as a whole appear increased with increasing pH. However, this does not match with the activity profiles of these enzymes, since they showed optimal activity shifted to acidic pHs. SAXS low-resolution models were aligned and superimposed on high resolution structures of homologous proteins, revealing a concordance of the tetrameric form of Xyl_Xcc and Xyl_Bad in solution and monomeric form of Xyl_Lcr. Thus arises the possibility of dissociation of tetramer into dimers, possibly caused by interaction (mechanical) system with the tangles of native gel and pores of molecular exclusion column. Crystals were obtained from Xyl_Bad and Xyl_Xcc, and these were subjected to X-ray diffraction to generate high resolution structures, revealing the presence of a conserved domain in the most reported XIs, consisting of a α⁄ β barrel (N-terminus). The structures are in an advanced stage of refinement. Finally, future studies are proposed to complement the results presented, which may prove the hypotheses generated from this work.

Bifidobacterium adolescentis

Cristalografia

Dicroísmo circular

Lactobacillus crispatus

SAXS

Xanthomonas campestris

Xilose isomerase

Xanthomonas campestri

Bifidobacterium adolescentis

Lactobacillus crispatus

Circular dichroism

Crystallography

SAXS

Xylose isomerase

Bactérias de solos supressivos com atividade antimicrobiana sobre Xanthomonas campestris pv. campestris / Suppressive soil bacteria with antimicrobial activity against Xanthomonas campestris pv. campestris

Silva, Rafael Salomão da

28 February 2016

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Xanthomonas campestris pv. campestris is a phytopathogenic bacterium, the causative agent of black rot in crucifers. For the control of plant pathogens diseases, there is the use of bacteria with activity antagonistic to the pathogen. Recent studies show that Bacillus species have on X. campestris a strong biological control. One of the mechanisms of this control is the production of secondary metabolites by these species. The objective of this work was to select bacteria X. campestris and antagonists to evaluate the antimicrobial activity of extracellular filtered bacteria (FEB) antagonist activity. To this, 257 bacteria isolated from a suppressive soil. They were evaluated in vitro antagonist activity by the technique of double layer. Ninety-two isolates (44.6%) were able to inhibit growth of the target pathogen (X.campestris). Of the 92 isolates selected on double layer of the test, 51 (55.43%) showed inhibition of growth of X. campestris on the inhibition assays with FEB in liquid medium. Thirteen of 50% or more inhibited the growth of the target pathogen, and the FEB-8, FEB-31-FEB 68, FEB 74-FEB-87 and were able to inhibit 100% growth of X. campestris. The FEB isolated TC-DT08, belonging to the genus Paenibacillus, it was used for in vivo tests in plant farming kale. The artificial inoculation kale with X. campestris pretreated with FEB-08 showed that the bacterium loses the ability to colonize and cause the cabbage black rot, indicating the potential use of this isolate to protect kale butter infection by X. campestris. / Xanthomonas Campestris. pv campestris é uma bactéria fitopatogênica, agente causal da podridão negra em crucíferas. Dentre os mecanismos para o controle de doenças de fitopatógenos, destaca-se o uso de bactérias com atividade antagonista ao patógeno. Estudos recentes mostram que espécies de Bacillus exercem sobre X. Campestris um forte controle biológico. Um dos mecanismos deste controle é a produção de metabólitos secundários por essas espécies. O objetivo deste trabalho foi selecionar bactérias antagonistas a X. campestris e avaliar a atividade antimicrobiana dos filtrados extracelulares das bactérias (FEB) com atividade antagonista. Para isso, 257 bactérias isoladas de solos supressivos foram avaliadas quanto a atividade antagonista in vitro pela técnica da dupla camada. Noventa e dois isolados (44,6%) foram capazes de inibir o crescimento do fitopatógeno alvo (X.campestris). Dentre os 92 isolados selecionados no teste da dupla-camada, 51 (55,43%) apresentaram inibição do crescimento da X. campestris nos ensaios de inibição com os FEB em meio líquido. Treze destes inibiram 50% ou mais do crescimento do fitopatógeno-alvo, sendo que os FEB-08, FEB-31, FEB-68, FEB-74 e FEB-87 foram capazes de inibir 100% do crescimento de Xanthomonas campestris. O FEB do isolado TC-DT08, pertencente ao gênero Paenibacillus, foi utilizado para testes in vivo em plantas de couve-manteiga, em condições de casa de vegetação. A inoculação artificial de couve-manteiga com X. campestris pré-tratada com o FEB-8 demonstrou que a bactéria perde a habilidade de colonizar a couve e causar a podridão negra, o que indica o potencial do uso deste isolado para proteger a couve-manteiga da infecção por X. campestris.

Solos

Solos supressivos

Bactérias

Podridão negra

Biologia do solo

Xanthomonas campestris

Atividade antagonista

Controle biológico

Crucíferas

Antagonist activity

Black rot

Biocontrol

Cruciferous

CIENCIAS AGRARIAS

Local and regional factors correlating with long term population change in Gentianella campestris

Löfqvist, Zandra

January 2018

The decrease of semi-natural grasslands in Europe during the last decade has made several previously common species rare or declining in numbers. One of these species is the endangered field gentian Gentianella campestris, which has been proposed as an important indicator species for semi-natural grasslands. Previous studies have highlighted the importance of consistent management and shown how local conditions affect the species. Less is known about how the population is affected by isolation and changes in the surrounding landscape, both of which are potential consequences of habitat loss.This study utilized long term citizen science data on the population changes to explore if local and regional factors, such as connectivity could explain the rapid decline and local extinctions that the field gentian population in Östergötland, Sweden, has experienced since the beginning of the 1990’s. Generalized linear models showed that the declining field gentian population can partly be explained by changes in the surrounding landscape which has led to decreased connectivity of semi-natural grasslands. The study also indicate that there is a need for future management plans to consider the surrounding landscape on a distance of 1-3 km from field gentian localities as this scale seems to be the most important.

Connectivity

fragmentation

Gentianella campestris

field gentian

semi-natural grasslands

spatial analyses

population change

citizen science

Konnektivitet

fragmentering

Fältgentiana

ängs- och hagmarker

spatiala analyser

Ecology

Ekologi

Botany

Botanik