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Estudo da variabilidade genética e dos fatores de virulência de isolados de Ureaplasma diversum. / Study of genetic variability and virulence factors of Ureaplasma diversum isolates.Lucas Miranda Marques 23 June 2009 (has links)
O presente trabalho teve como objetivo o estudo da variabilidade genética e dos fatores de virulência de isolados de U. diversum. As cepas foram submetidas a sequenciamento dos genes da urease e 16S rRNA e a testes para verificar os fatores de virulência: cápsula, fosfolipase C, IgAse e adesão e invasão. A análise do sequênciamento parcial do gene 16S rRNA resultou na presença de polimorfismos em 44 posições da seqüência, que diferenciou as amostras em sete grupos. Em relação aos fatores de virulência, os dados mostraram que as cepas estudadas apresentaram uma camada densa ao redor da membrana celular dos microrganismos e atividade de fosfolipase C. No entanto, não foi observado a atividade de IgAse nas cepas. Em relação a atividade de invasão, observou-se que os ureaplasma estudados puderam ser visualizados no interior de células Hep-2 com apenas um minutos de infecção, sendo observados em uma região perinuclear, mas não no interior do núcleo. Além disto, pode verificar que entre 1% a 10% dos ureaplasmas estudos penetraram na célula pelo teste da gentamicina. / The aim of the present study was the study of genetic variability and virulence factors of U. diversum clinical isolates. The strains were submitted to sequencing for 16S rRNA and urease genes. Moreover, the strains were analyzed to the virulence factors: capsule, phospholipase C, IgA protease and adhesion and invasion into Hep-2 cells. The sequencing of parcial 16S rRNA gene showed polymorphic patterns into 44 positions. These polymorphisms clustered the strains in seven groups. For the virulence factors, ureaplasma cells showed a dense-stained external capsule-like structure surrounding the cell membrane. A high level of phospholipase C activity was also detected in 31 studied ureaplasma. However, no strains showed IgA protease activity. For the invasion assay, the isolates and strains used were detected inside the cells after infection of one minute. The invasions of the ureaplasmas surrounded the nuclear region but were not observed inside the nuclei. The gentamicin invasion assay detected that 1% to 10% of studied ureaplasmas were inside the infected cells.
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Bordetella pertussis: participação da arginase, TGF-b e TLR4 no controle da síntese de óxido nítrico em macrófagos derivados de medula óssea murina. / Bordetella pertussis: Involvement of arginase, TGF-b and TLR4 in the control of nitric oxide synthesis in macrophages derived from murine bone marrow.Rosetti, Andreza da Silva 20 May 2009 (has links)
Bordetella pertussis e Bordetella parapertussis são os principais agentes causadores da coqueluche no homem. O óxido nítrico é fundamental para o controle de diversos processos fisiopatológicos. Neste trabalho analisamos sinais moleculares envolvidos na produção de NO em macrófagos derivados de medula óssea murina (BMDMO) infectadas por Bpertussis e Bparapertussis. Nossos resultados mostraram que BMDMO de C57BL/6 estimulados com Bpertussis não sintetizaram níveis significativos de nitrito, ao contrário da infecção com Bparapertussis. BMDMO de C57BL/6 infectados por Bpertussis e Bparapertussis produziram níveis elevados de arginase e de TGFb e esta produção foi dependente de TLR4, porém a produção de NO pelos BMDMO de C3H/HeJ infectados com Bparapertussis foi independente deste receptor. A adição exógena de PT em BMDMO infectados com Bparapertussis reduziu a quantidade de NO sintetizada. Concluímos que TGFb e arginase contribuem para o controle da produção de NO durante a infecção in vitro de BMDMO com Bpertussis e este mecanismo depende de LPS envolvendo TLR4 e PT. / Bordetella pertussis and Bordetella parapertussis are the main etiologic causes of human whooping cough. Nitric oxide (NO) is crucial for several physiopathologic events. Herein we analyzed the molecular signals required for NO production by murine bone marrow-derived macrophages (BMDM) infected with Bpertussis or Bparapertussis. Our data show that BMDM obtained from C57Bl/6 mice was not able to produce measurable levels of nitrite when stimulated with Bpertussis while infection of these cells with Bparapertussis induced high levels of nitrite. Arginase and TLR4-dependent TGF-b were produced in response to infection with either Bpertussis or Bparapertussis. NO production by BMDM obtained from C3H/HeJ mice occurred after Bparapertussis infection in the absence of TLR4. Addition of pertussis toxin to the C57Bl/6 BMDM cultures infected with Bparapertussis decreased NO levels. In conclusion, TGF-b and arginase play a role controlling NO production by BMDM during in vitro infection by Bpertussis. This effect depends on the presence of LPS-TLR4 and PT signaling pathways.
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Fímbrias Pil em Escherichia coli enteropatogênica atípica: Caracterização e investigação do papel de PilS e PilV na adesão bacteriana. / Type IV pilus in atypical enteropathogenic Escherichia coli: characterization and investigation of PilS and PilV in bacterial adhesion role.Freitas, Natalia Cristina de 13 June 2012 (has links)
Fímbrias do tipo IV estão associadas a diversos fenótipos em bactérias gram-negativas, e o presente estudo consistiu na caracterização da fímbria Pil e investigação de seu papel na adesão bacteriana de isolados de EPEC atípica. Por PCR e RT-PCR foram investigadas a presença e a funcionalidade do operon Pil e os resultados demonstraram que este está sendo transcrito somente nos isolados BA558 e BA956. Os genes pilS e pilV foram clonados em vetor de expressão para obtenção das proteínas Pil recombinantes e produção de anticorpos policlonais. A análise qualitativa dos testes de inibição da adesão utilizando os soros anti-PilS e anti-PilV juntos demonstraram que o isolado BA558 apresentou mudança de fenótipo de adesão. Esses resultados nos permitem concluir que o operon Pil está funcional em BA558 e BA956, e a expressão da fímbria Pil nessas cepas não está relacionada à formação de biofilme e autoagregação, porém a proteína fimbrial PilS juntamente com a adesina PilV parecem exercer uma função acessória importante na interação de BA558 às células HEp-2. / Type IV fimbriae are associated with several phenotypes in gram-negative bacteria. The aim of this study was the characterization of the Pil fimbria and its role in the interaction of atypical EPEC isolates in bacterial adhesion. Using PCR and RT-PCR, we investigated the presence and functionality of the pil operon genes. The results showed that these genes are transcribed only in the BA558 and BA956 isolates. The pilS and pilV genes were cloned into an expression vector for recombinant proteins and polyclonal antibodies production. Qualitative analysis of the adherence inhibition assays using both rabbit sera changed to localized-like the phenotype of BA558 isolate adhesion. Together, these results allow us to conclude that the Pil operon is functional only in the BA558 and BA956 isolates and that the expression of Pil fimbriae in aEPEC is not related to biofilm formation and autoaggregation but, the fimbrial PilS protein together with PilV adhesin seem to play an important accessory function in the interaction between the BA558 and epithelial cells in vitro.
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Endotoxin Peptide/Protein Interactions: Thermodynamic And Kinetic AnalysisThomas, Celestine J 11 1900 (has links)
Endotoxin or Lipopolysaccharide (LPS) is the invariant structural component of gram negative bacterial outer membranes and is the chief causative factor of Sepsis or endotoxic shock. Sepsis is a syndrome that has very high mortality rates even in this age of excellent therapeutics and critical patient care. The treatment for sepsis till date remains nonspecific and supportive due to lack of effective anti-endotoxic drugs. Sepsis is initiated when the circulating bacteria shed LPS from their cell envelopes. Shed LPS aggregates are recognized by LPS binding proteins and receptors, which activate the host's immune system. Uncontrolled and excessive stimulation of the host's immune system precipitates endotoxic shock which in advanced cases involving multiple system organ failure inevitably lead to patient's death.
Many strategies have been tested out to combat this deadly affliction. One of the attractive clinical modalities in sepsis treatment is the use of peptides as LPS sequestering anti-endotoxic drugs. A classical peptide antibiotic of this class is Polymyxin B (PMB) a cyclic cationic acylated molecule, that recognizes LPS with a very high affinity.
This thesis describes kinetics and thermodynamics of PMB-LPS interactions and applies these parameters over a framework of different models so as to gain insights into the structure-function relationships that govern the interactions of this peptide with endotoxin(s). Classical biophysical techniques like fluorescence, circular dichroism spectroscopy, stopped flow kinetics, titration calorirnetry (ITC) and the relatively new technique of Surface Plasmon Resonance (SPR) have been employed to dissect out the mechanism of the range of non-covalent forces that are involved in peptide-endotoxin recognition. Certain proteins that exhibit LPS binding activity have also been studied to gains insight about their mode of action. Implications of these studies for designing peptides that have better anti-endotoxic properties are also highlighted.
The first chapter introduces and highlights the clinical features of sepsis. It also attempts to shed light on the LPS mediated signal transduction pathway that leads to endotoxic shock. This chapter also briefly explains the roles of many LPS receptors that are present in the human system and their specific roles in the signal transduction pathways.
The second part of this chapter deals with the role of cationic peptides as anti-endotoxic drugs. Certain key functional aspects of these peptides, which impart in them, the desirable property of LPS recognition have also been discussed
The second chapter describes the kinetic studies undertaken to unravel the exact mechanism of LPS-PMB interaction. The studies reveal that PMB recognizes LPS in a biphasic manner, with the second, unimolecular isomerization step of the reaction being the rate-limiting step. The initial reaction is shown to be influenced by the presence of salt in the reaction medium. The dissociation phase of this interaction also shows a biphasic pattern. These data allow us to speculate upon the exact mechanism by which PMB is able to recognize LPS. The studies also shed light on some structural aspects that govern and confer such high LPS binding activity to PMB. Based on these a model has been proposed to explain this recognition (C.J. Thomas et al, 1998).
The second chapter discuses the mode of action of various PMB analogs. These analogs have been chosen in terms of their mode of action as well as their structural similarly to PMB. The affinities of these analogs to LPS and lipid A were quantified using the Surface plasmon resonance (SPR) method. SPR, a technique that relies on the quantification of change in mass during a binary binding process occurring between an immobilized entity and a flowing ligand, is a rapid and sensitive method to measure biologically relevant interactions.
SPR studies provide us with the binding constants and thermodynamic parameters that allow evaluation of the affinities of these peptides towards LPS (C.J.Thomas and A.Surolia, 1999).
The third chapter discusses a hitherto unknown mode by which PMB acts on a LPS lamellae. The results of this study wherein the binding affinities of PMB and its analogs were performed on monolayers and tethered liposomes, show that PMB is able to remove specifically LPS or lipid A from monolayers or bilayer assemblies such as tethered liposomes. The exact mode of action of PMB is deciphered in the light of these new studies, which allow us to posit on the observed efficacy of PMB in neutralizing the endotoxin as compared to peptides with nearly similar affinities for LPS (C.J Thomas et al 1999).
In the fourth chapter a series of 23 residue peptides, based on the sequence corresponding to the anti-sense strand of magainin gene have been synthesized. Magainin an amphiphilic helical peptide obtained from frog skins plays a vital role in the innate immune defense mechanisms of these organisms. It also exhibits LPS binding activity that makes it an attractive target as an anti-endotoxic drug. Biochemical and biophysical characterization of these peptides reveal that they have the tendency to perturb both the inner and the outer membranes of E.coli. The peptides are amphiphilic and have helical structure in a membrane bound environment.
Three of the peptides tested have high affinities for lipid A that approach the values shown by PMB. The kinetic parameters obtained by stopped flow and SPR studies in conjunction with the therrnodynamic parameters obtained using ITC studies allow us to highlight the key structural features that need to be exhibited by peptides that are designed to be LPS recognizers. The studies also project the fact that ionic forces play an important role in the initial recognition of LPS by these peptides. Fortification of the might of these ionic charges increases affinity for LPS where as the hydrophobic residues that interact at the next phase of binding are more amenable to disruptions in contiguity. These factors are discussed using the helical wheel diagram that shows the clear amphiphilicity displayed by these peptides. (C.J Thomas et al Manuscript under preparation, 2000)
Chapter six discusses the mode of action of certain LPS binding proteins. Limulus anti endotoxic factor (LALF) plays a vital role in the innate immune based defense systems of the horseshoe crab. Galectin-3 is a metal ion independent, galactosc binding Icctin of human origin with unknown functions. Both these phylogcntically-unrclatcd proteins exhibit LPS/lipid A recognizing properties. ITC and SPR studies have been used to determine the binding constants displayed by these proteins for lipid A. LALF bind to lipid A with very high affinity than compared to Galectin-3 and is also able to take away selectively lipid A from both monolayers and tethered liposomes. Galectin-3 does not show this property of LALF, which might account for its lowered affinities. Also structurally LALF has amphiphilic nature that confers high lipid A binding activity, which is clearly lacking in Galectin-3. These studies in conjunction with the knowledge gained from the study of LPS-PMB interaction stress on the importance of amphiphilicity in LPS recognition. (C.J Thomas et al Manuscript under preparation, 2000).
The final chapter is a general discussion that attempts to collate all these kinetic and thermodynamic observations in the pursuit of designing small easily manipulatable peptides that exhibit high LPS binding activity. These studies are aimed to act as rough guidelines to the design of LPS sequestering peptides that might have better therapeutic and pharmacokinetic properties.
The appendix to the main body of work presented in thesis are two pieces of work pertaining to the elucidation the kinetics and mechanism of sugar lectin interactions, when sugars are presented as glycolipids in monolayers or bilaycrs liposomes. Mode of the presentation of sugars at cell-surfaces in the form of glycolipids as ligands influence their recognition by macromolecular receptors like lectins. Appendix 1 is a study of the mode of action of Ulex europeus I lectin binding to H-fucolipid containing tethered liposomes, by SPR. Fucosylated sugars are often used as key markers in histochemical analysis of malignant cancerous tissues. Ulex lectin plays a vital role as a marker for identification of these tissues. The kinetics and thermodynamic parameters that are obtained in this study throw some light on the mode of recognition of glycolipid receptor by Ulex europeus I lectin (C.J Thomas and A. Surolia 2000).
Appendix 2 is a study, that attempts to quantify the initial kinetic parameters that correlate the recognition of glycolipid receptors with their inclination at the membrane surface and the influence of charge on them by soyabean agglutinin (SBA), Abrus agglutinin I and II. Studies on the soyabean agglutinin-globoside interaction highlights the divalent cation mediated reorientation of these receptors on their accessibility and recognition to the agglutinin. The divalent cations are speculated to orient the oligosaccharide head groups in a spatial geometry that allows a heightened kinetics of their interaction by SBA. These studies reveal that the reorganization of the binding pocket of a lectin can also have a profound influence on ihc rates of recognition of a glycospingolipid ligand by a lectin as exemplified by Abrus agglutinin II- GM1 interactions (C.J Thomas ct al, Manuscript under preparation).
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Mechanisms of tolerance to Melaleuca alternifolia (tea tree) oil in Pseudomonas aeruginosaPapadopoulos, Chelsea Jade January 2009 (has links)
[Truncated abstract] Pseudomonas aeruginosa, an important opportunistic pathogen, is resistant to a wide array of functionally and structurally diverse antimicrobial agents including antibiotics, disinfectants and biocides. P. aeruginosa is more resistant than other Gram negative bacteria to tea tree oil (TTO), the essential oil steam distilled from the leaves of Melaleuca alternifolia and comprised of over 100 terpene hydrocarbon components and their oxygenated derivatives. TTO is an established topical antimicrobial agent, with antibacterial, antiviral and antifungal properties. Intrinsic antimicrobial resistance mechanisms in P. aeruginosa include the low permeability of the outer membrane and expression of multi-drug efflux pumps. A series of multi-drug efflux mutants from the resistance-nodulation-cell division family was obtained and their susceptibility to TTO and several components examined. This demonstrated that TTO and the components terpinen-4-ol, 1,8-cineole and a-terpineol were substrates of MexAB-OprM, using both pump deletion mutants and the pump inhibitor Phe-arg ß-naphthylamide dihydrochloride. In complementation studies, the addition of mexAB-oprM to deletion mutants restored susceptibility to these agents to that of the wild-type, confirming the role of MexAB-OprM in tolerance to TTO and these three components. ... An increase in susceptibility to ticarcillin and Timentin occurred in PAO1 following serial subculture in terpinen-4-ol. Susceptibility to ticarcillin has been associated with expression of the MexCD-OprJ system in P. aeruginosa. A library of transposon mutants was created to find additional mechanisms by which P. aeruginosa could tolerate TTO. The library yielded a total of 20 mutants that were more susceptible than parental strains to TTO and/or terpinen-4-ol. The insertion site of the transposon was identified in 14 mutants and, in four mutants, this was a gene related to flagellar biosynthesis. Flagella deficient mutants have previously demonstrated enhanced susceptibility to the membrane-disrupting surfactant sodium dodecyl sulfate and this echoes the increased susceptibility to TTO and terpinen-4-ol observed. Three non-sibling surA mutants were also identified. SurA is involved in the correct folding of outer membrane proteins, including porins, in Gram negative bacteria: surA mutants of Escherichia coli have phenotypes that are characteristic of a defective cell envelope, including an increased susceptibility to hydrophobic agents. The increase in susceptibility to hydrophobic TTO and terpinen-4-ol in the surA mutants is consistent with this and represents the first report linking SurA function to antimicrobial resistance in P. aeruginosa. In conclusion, several Mex efflux systems of P. aeruginosa including MexAB-OprM, MexCD-OprJ and MexEF-OprN, as well as the LPS core, outer membrane integrity and a functioning flagella biosynthetic pathway contribute to the tolerance of this organism to TTO and/or several components.
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Surveillance of antibiotic consumption and antibiotic resistance in Swedish intensive care units /Erlandsson, Marcus, January 2007 (has links) (PDF)
Diss. Linköping : Linköpings universitet, 2007.
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New insights into small molecules inhibitors and protein-protein interactions of VirB8 : a critical conserved component of the type IV secretion systemUm Nlend, Ingrid 06 1900 (has links)
No description available.
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Nouveaux dérivés aminostéroïdiens à usage antimicrobien en médecine vétérinaire / New aminosterol derivatives for antimicrobial use in veterinary medicineBlanchet, Marine 16 February 2018 (has links)
Actuellement, le traitement des pathologies infectieuses chez les bovins et les animaux de compagnie est menacé par l’accroissement de l’antibiorésistance et des bactéries multirésistantes. Il est donc primordial pour les entreprises pharmaceutiques vétérinaires de développer de nouvelles gammes d’agents antibactériens spécifiques au domaine animale. Dans ce contexte, il a été montré que certains polyaminostérols naturels tels que la squalamine possèdent un fort potentiel antimicrobien. Ainsi, l’objectif de ce travail de thèse est de répondre à la problématique présentée par la société Virbac dans le traitement des mammites (bovins) et des otites/pyodermites (chien) par le développement d’une nouvelle classe de dérivés polyaminostéroïdiens synthétiques à large spectre antimicrobien. Pour cela, nous avons constitué une chimiothèque de composés originaux préparés à partir de différents acides biliaires selon des voies de synthèse inédites. Ces composés ont été évalués in vitro pour leur cytotoxicité et leurs activités antibactériennes contre diverses bactéries à Gram positif et à Gram négatif et nous avons pu établir la preuve de concept in vitro de leur potentiel thérapeutique en tant qu’agents antibactériens ou adjuvants d’antibiotiques. De plus, nous avons montré que l’un de ces nouveaux dérivés, la claramine A1, agit sur l’intégrité physique des membranes bactériennes et sur les performances d'efflux des pompes AcrAB-TolC. Ainsi, il apparaît finalement que ces dérivés polyaminostéroïdiens au mode d’action non conventionnel pourraient constituer une nouvelle classe d’agents antibactériens pour un usage en tant que substituts d’antibiotiques en médecine vétérinaire. / Currently, the treatment of infectious pathologies in cattle and pets is threatened by the growing antimicrobial resistance and the development of multidrug-resistant bacteria. Thus it is necessary for the veterinary pharmaceutical firms to develop new lines of antibacterial agents. In this context, some natural polyaminosterols such as squalamine have gained interest due to their potent antimicrobial activities. Thus the aim of this PhD work is to provide an answer in the treatment of mastitis (cattle) and otitis/pyoderma (dog) by the development of a new class of synthetic polyaminosterols with a broad spectrum of antibacterial activity. In this purpose, a chemical library of original compounds has been prepared starting from various bile acids by using unprecedented synthesis procedures. These compounds were evaluated for their in vitro cytotoxicity on CHO cells as well as their antibacterial activities against Gram-positive and Gram-negative bacteria and we have establish the in vitro proof of concept of the therapeutic potential of this family of molecules as antibacterial agent or antibiotic adjuvant. Additional investigations were then conducted on one of these novel derivatives namely claramine A1 to deepen knowledge of its mechanism of action and showed that claramine A1 acts on the physical integrity of bacterial membranes and the efflux performance of AcrAB-TolC pumps. Based on the results of claramine A1, it finally appears that these new polyaminosterol derivatives possessing a non-classical mode of action pertain to a new class of antibacterial agents and could constitute a substitute for traditional antibiotics in veterinary medicine.
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Caracterização de Mutantes de Xanthomonas citri Gerados por Disrupção Gênica Randômica Usando Transposon / Characterization of Xanthomonas citri mutants generated by random gene disruption using transposonJulio Cesar Levano Garcia 06 February 2003 (has links)
Xanthomonas axonopodis pv citri (Xac), uma bactéria gram negativa, é a causadora da doença Cancro Cítrico que ocasiona enormes prejuizo na citricultura brasileira. Com o seqüenciamento do genoma deste patógeno foram encontradas inúmeras sequências codificadores com funções desconhecidas. Assim com a finalidade de estudos funcionais do genoma de Xac, foram gerados mutantes randômicos usando o transposon EZ::TN, que induziu disrupção aleatoria de seus genes com o intuito de avaliar que genes inativados afetam a patogenicidade da bactéria. Para o mapeamento do local de inserção do transposon foi desenvolvida uma metodologia baseada na técnica de PCR touchdown utizando oligonucleotídeos semidegenerados. A confiabilidade deste novo método foi comprovada através do mapeamento por Southem blot de alguns mutantes. Conseguiu-se mapear 90 mutantes randômicos com este método. Os testes de patogenicidade em citros mostraram mutantes com sua patogenicidade afetada observando-se variações nos sintomas da doença. Mutantes interessantes contendo uma ORF hipotética inativada ou tendo uma inserção num espaço intergênico foram achadas, sendo também detectados alguns mutantes com nocaute de genes nos seus plasmídeos pXac33 e pXac66. / Xanthomonas axonopodis pv citri (Xac), a gram-negative bacteria, is the causer of the Citrus Canker disease that produces enormous losses to the brazilian citrus sector. Many coding sequences with unknown functions were found in the genome sequence of this pathogen. Therefore, with the goal of functional studies of Xac\'s genome, random mutants using the EZ::TN transposon, have been generated, which carry aleatory disruptions of their genes, with the aim of evaluating inactived genes that potentially affect bacterial pathogenicity. A method based in the PCR touchdown technique using semidegenerate primers was developed for the mapping of the transposon insertion site. The reliability of this new method was tested by means of mapping some mutants using Southern blot. Ninety random mutants were mapped with this method. The pathogenicity tests in citrus showed mutants with their pathogenicity affected and variations in the disease symptoms were observed. Interesting mutants containing an inactive hypothetical ORF or with an insertion in intergenic regions have been found, and also some mutants with inactivated genes in their plasmids pXac33 and pXac66 were detected.
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Análise comparativa entre os genomas dos fitopatógenos Xylella fastidiosa e Xanthomonas axonopodis pv. citri / Comparative analysis between the genomes of the phytopathogens Xylella fastidiosa and Xanthomonas axonopodis pv. citriLeandro Marcio Moreira 04 November 2002 (has links)
Xylella fastidiosa (Xf) e Xanthomonas axonopodis pv. citri (Xac) são gama proteobactérias gram negativas, responsáveis por grandes perdas econômicas no setor citrícola brasileiro. Com seus genomas seqüenciados e anotados, fizemos uma análise comparativa entre suas composições gênicas e seus ambientes de vida. Xac apresenta um genoma de 5.2Mb contra 2.7Mb de Xf Isto reflete no número de genes (4432 contra 2838) que acabam refletindo em uma maior complexidade metabólica de Xac, caracterizada por: uma extensa gama de genes de degradação de parede celular (44), biossíntese de proteases (92), genes de funções regulatórias (296), um completo metabolismo energético (209), quimiotático (inexistente em Xf) e secretório (presença dos tipos I, II, III e IV , sendo o II em duplicata), além de um grande número de genes envolvidos com captação de ferro (65), fazem de Xac um patógeno de alto poder invasivo e de rápida propagação e virulência Em contrapartida, Xf por não possuir a complexidade supracitada, parece ter seus recursos adaptados ao ambiente em que vive, como por exemplo um alto número de genes envolvidos com biossíntese de pili, que associado à biossíntese de goma, favorecem sua adesão nas glândulas salivares do vetor (cigarrinha) e a formação de aglomerados celulares responsáveis pelo entupimento dos vasos que levam às patologias decorrentes do evento. / Xylella fastidiosa (Xf) and Xanthomonas axonopodis pv. citri Xac are gram negative gamma proteobacteria, responsible for great economical losses in the Brazilian citrus sector. With their sequenced and annotated genomes, we have done a comparative analysis between their genetic composition and life habitat. Xac displays a genome of 5.2Mb against 2. 7Mb of Xf. This reflects the number of genes (4432 against 2838) which results in a greater metabolic complexity of Xac, characterized by: a wide range of genes of cell wall degradation (44), biosynthesis of proteases (92), many genes of regulatory functions (296), a complex energy metabolism (209), chemotatic (absent in Xf) and secretory systerns (presence of types I, II, III and IV, type II in duplicate), besides a great number of genes involved in iron acquisition (65), make of Xac a pathogen of high invasive power and of quick spreading and virulence. In the other hand Xf, due to the lack of the complexity just cited, seems to have its resources adapted to the habitat in which it lives, as for example a large number of genes involved in pili biosynthesis, that associated with gum biosynthesis, favor its adhesion to the salivary glands of the vector (sharpshooter) and the formation of cellular agglomerations responsible for the blockage of the vessels which leads to the pathologies resulted from this event.
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