Computational, Evolutionary and Functional Genetic Characterization of Fungal Gene Clusters Adapted to Degrade Plant Defense Chemicals

Gluck Thaler, Emile

04 September 2019

No description available.

Plant Pathology

metabolic gene cluster

genome evolution

genome architecture

resistance

plant-fungal interactions

horizontal gene transfer

fungal ecology

Aspects of Penicillium genomics : Molecular combing genome assembly, genetic exchange in food and potential for secondary metabolite production / Aspects de la génomique des Penicilliums : Assemblage de génome par Peignage Moléculaire, échange génétique dans les aliments et potentiel de production de métabolites secondaires

Cheeseman, Kevin

20 November 2013

Les Penicilliums sont des champignons filamenteux appartenant au genre Ascomycota. Ces champignons ont été utilisés par l’homme pour la production de nourriture depuis des siècles. Plus récemment, ils ont aussi été utilisés dans l’industrie biotechnologique pour la production de composés chimiques d’intérêts pharmaceutiques. Certaines espèces de Penicillium sont par ailleurs des moisissures contaminants certains aliments, d’autres sont des pathogènes de plantes, y compris de certains fruits. Leur génomique est globalement peut connue. Dans cette étude, nous avons analysé les génomes de deux espèces nouvellement séquencées, Penicillium roqueforti et Penicillium camemberti. Nous reportons ici le développement d’une nouvelle méthodologie pour l’amélioration et la validation d’assemblage de génomes en utilisant une technologie permettant l’observation de molécules d’ADN unique, le Peignage Moléculaire. En utilisant cette méthode, nous avons amélioré l’assemblage de Penicillium roqueforti. Ce manuscrit décrit aussi de multiples occurrences d’un transfert horizontal d’un ilot génomique de plus de cinq cent kilobases entre plusieurs Penicillium. Ce cas de transfert horizontal indique une fréquence d’échange latéral de matériel génétique plus forte qu’attendue. Enfin nous présentons un inventaire préliminaire du potentiel génomique pour la production de métabolites secondaires dans ces importants Penicillium alimentaires. / Penicillium are filamentous fungi belonging to the Ascomycota genus. Penicillium species have been used by Man for centuries in food making processes. More recently they have also been used in the biotechnology industry for the production of compounds of pharmaceutical interest. Some Penicillium species are food spoilage agents, pathogens of plants including fruits. Aspects of their genomics are largely unknown. In this study, we analysed the genomes of two newly sequenced species, Penicillium roqueforti and Penicillium camemberti. Here we report the development of a new methodology for improving and validating genome assembly using an original single DNA molecule technology, Molecular Combing. Using this methodology we were able to produce a high quality genome assembly of Penicillium roqueforti. This work also reports the multiple and recurrent horizontal transfer of a large genomic island of over half a megabase between several Penicillium species. This horizontal transfer indicates a higher frequency of lateral genetic exchange between cheesemaking fungi than previously expected. Finally, we present an early assessment of the genomic potential for secondary metabolite production in these important food associated penicilliums.

Penicillium

Peignage Moléculaire

Champignons

Transfert horizontal de gène

Transfert lateral de gène

Fabrication du fromage

Penicillium

Molecular Combing

Fungi

Horizontal Gene transfer

Lateral Gene Transfer

Cheesemaking

Recherche automatisée de motifs dans les arbres phylogénétiques / Automatic phylogenetic tree pattern matching

Bigot, Thomas

05 June 2013

La phylogénie permet de reconstituer l'histoire évolutive de séquences ainsi que des espèces qui les portent. Les récents progrès des méthodes de séquençage ont permis une inflation du nombre de séquences disponibles et donc du nombre d'arbres de gènes qu'il est possible de construire. La question qui se pose est alors d'optimiser la recherche d'informations dans ces arbres. Cette recherche doit être à la fois exhaustive et efficace. Pour ce faire, mon travail de thèse a consisté en l'écriture puis en l'utilisation d'un ensemble de programmes capables de parcourir et d'annoter les arbres phylogénétiques. Cet ensemble de programmes porte le nom de TPMS (Tree Pattern Matching Suite). Le premier de ces programmes (tpms_query) permet d'effectuer l'interrogation de collections à l'aide d'un formalisme dédie. Les possibilités qu'il offre sont : La détection de transferts horizontaux : Si un arbre de gènes présente une espèce branchée dans un arbre au milieu d'un groupe monophylétique d'espèces avec lesquelles elle n'est pas apparentée, on peut supposer qu'il s'agit d'un transfert horizontal, si ces organismes sont des procaryotes ou des eucaryotes unicellulaires. La détection d'orthologie : Si une partie d'un arbre de gènes correspond exactement à l'arbre des espèces, on peut alors supposer que ces gènes sont un ensemble de gènes d'orthologues. La validation de phylogénies connues : Quand l'arbre des espèces donne lieu à des débats, il peut est possible d'interroger une large collection d'arbres de gènes pour voir combien de familles de gènes correspondent à chaque hypothèse. Un autre programme, tpms_computations, permet d'effectuer des opérations en parallèle sur tous les arbres, et propose notamment l'enracinement automatique des arbres via différents critères, ainsi que l'extraction de sous arbres d'orthologues (séquence unique par espèce). Il propose aussi une méthode de détection automatique d'incongruences. La thèse présente le contexte, les différents algorithmes à la base de ces programmes, ainsi que plusieurs utilisations qui en ont été faites / Phylogeny allows to reconstruct evolutionnary history of sequences and species that carry them. Recent progress in sequencing methods produced a growing number of available sequences, and so of number of gene trees that one can build. One of the consecutive issues is to optimise the extraction of information from the trees. Such an extraction should be complete and efficient. To address this, my thesis consisted in writing and then using a suite of programs which aim to browse and annotate phylogenic trees. This program suite is named TPMS (Tree Pattern Matching Suite). It browses and annotates trees with several algorithms. The first of them, tpms_query consists in querying collections using a dedicated formalism. This allows to: Detect horizontal transfers If, in a gene tree, a species is nested in a monophyletic group of unrelated species, one can infer this is a horizontal transfer, if this organisms are prokaryotic (also concerning some unicellular eukaryotes). Orthology detection: if a part of a gene tree exactly matches to the species tree, one can suppose these genes are set of orthologues. Validating known phylogenies: when controversy exists concerning the species tree, it is possible to query a lange collection of gene trees to perform a count of families matching to each hypothesis. Another program allows to perform parallel operations on all the trees, such as automating rooting of trees via different criterions. It also allows an automatic detection of incongruencies. The thesis introduces the context, different algorithms which the programs are based on, and several using performed with it

Évolution moléculaire

Bioinformatique

Phylogénie

Tree pattern matching

Enracinement

Transfert horizontal

Orthologie

Incongruence

Evolutionnary biology

Bioinformatics

Phylogeny

Tree pattern matching

Rooting

Horizontal gene transfer

Orthology

Incongruency

570.285

dnj-16 é provavelmente o resultado de transferência horizontal do gene relacionado ao gravitropismo ARG1, de plantas para nematoides, mas não é induzido por hipergravidade de até 400.000 x g em Caenorhabditis elegans / dnj-16 is probably the result of horizontal gene transfer of ARG1 gravitropism related gene, from plants to nematodes, but is not induce by hypergravity up to 400,000 x g in Caenorhabditis elegans

Souza, Tiago Alves Jorge de

19 April 2018

Durante a anidrobiose (um estado ametabólico muito estável), o nematóide Panagrolaimus superbus tolera vários tipos de estresses físicos. A fim de melhor compreender essa extremotolerância, P. superbus foi submetido a regimes de hiperaceleração (RHA) de até 400.000 x g. Surpreendentemente, foi observado que esse verme tolera a exposição à RHA tanto dessecado (i.e., em anidrobiose) como hidratado. Para verificar se esse fenômeno era específico para essa espécie ou algo observável em outros organismos, os mesmos procedimentos experimentais foram realizados no organismo modelo Caenorhabditis elegans. Intrigantemente, C. elegans também mostrou o mesmo perfil de sobrevivência. Ademais, o desenvolvimento, comportamento, morfologia e crescimento populacional desse nematóide também foram analisados após a exposição ao RHA, não sendo observada quaisquer mudanças nesses parâmetros em função da exposição à hipergravidade. Em seguida, foram realizadas buscas (tBLASTn) no genoma de C. elegans por homólogos de genes relacionados ao gravitropismo que são naturalmente encontrados em plantas. Essa busca resultou nos genes dnj- 16 (homólogo ao ARG1), ipla-1 (homólogo ao SGR2) e uma sequência não caracterizada (homóloga a TWD1). Especial atenção foi despendida ao gene dnj-16, uma vez que é o mais conservado entre eles. As análises de RT-qPCR revelaram que o dnj-16 é ligeiramente regulado para baixo durante o RHA, o que não era esperado caso ele possuísse função semelhante ao seu homólogo em plantas. A análise do estado metabólico desse nematoide durante o RHA lançou luz sobre os dados de RT-qPCR, mostrando que a queda na expressão de dnj-16 é provavelmente devida à centrifugação. Posteriormente, diversas análises in silico foram realizadas a fim de caracterizar o gene dnj-16 e a sua respectiva proteína. Inicialmente, a análise comparativa dos domínios DnaJ, transmembrana e coiled coil das proteínas dnj-16, ARG1, ARL1 e ARL2 apontou para uma grande semelhança não apenas na sequência como na estrutura dessas proteínas. Essa grande similaridade motivou análises para desvendar o papel e a origem do gene dnj-16. Três hipóteses ((i) homologia, (ii) convergência e (iii) transferência gênica horizontal (TGH)) foram consideradas na investigação desse intrigante gene. Os resultados obtidos nas análises in silico apontaram para uma TGH mediada por RNA, potencialmente ocorrida a 1325 m.a., como a hipótese mais plausível para explicar a origem de dnj-16 e algumas espécies parasitas do gênero Phytophthora como prováveis mediadores dessa transferência. Dessa forma, os dados apresentados nessa tese mostram pela primeira vez que C. elegans é tolerante a RHA ordens de magnitude mais altas do que se pensava serem compatíveis com a vida multicelular. Além disso, os dados sugerem que dnj-16 foi transferido horizontalmente de plantas para nematoides e que a ultracentrifugação leva a uma redução no metabolismo de C. elegans, o que ajudaria a explicar a sua sobrevivência sob tal condição extrema. Por fim, o conjunto de dados desse trabalho representa contribuições originais para a compreenção da biologia, da genética e da evolução de C. elegans. / During anhydrobiosis (a very stable ametabolic state), the nematode Panagrolaimus superbus tolerates many types of physical stresses. In order to better understand this extremotolerance, P. superbus underwent hyperacceleration regimes (RHA) of up to 400,000 x g. Surprisingly, it was observed that this worm tolerated RHA exposure both dried (i.e., during anhydrobiosis) and hydrated. In order to verify if this phenomenon was specific for this species or something observable in other organisms, the same experimental procedures were performed in the model organism Caenorhabditis elegans. Intriguingly, C. elegans also showed the same survival profile. In addition, the development, behavior, morphology and population growth of this nematode were also analyzed after the exposure to RHA and no changes were observed in these parameters due to the hypergravity exposure. Thereafter, searches (tBLASTn) were performed on C. elegans genome by homologs of gravitropism related genes that are naturally found in plants. These searches resulted in the genes dnj-16 (homologous to ARG1), ipla-1 (homologous to SGR2) and an uncharacterized sequence (homologous to TWD1). Special attention was given to dnj-16 gene, since it is the most conserved among them. RT-qPCR analyzes revealed that dnj-16 is slightly down regulated during RHA, which was not expected if it had similar function to its homologue in plants. Analysis of the metabolic status of this nematode during RHA shed light on the RT-qPCR data, showing that the decrease in dnj-16 expression was probably due to centrifugation. Subsequently, several in silico analyzes were performed in order to characterize the dnj-16 gene and its respective protein. Initially, the comparative analyzis of the DnaJ, transmembrane and coiled coil domains of dnj-16, ARG1, ARL1 and ARL2 proteins pointed to a great similarity not only in the sequence as well as in the structure of these proteins. This great similarity motivated analyzes in order to uncover the real nature of the dnj-16 gene. Three hypotheses ((i) homology, (ii) convergence and (iii) horizontal gene transfer (HGT)) were considered in the investigation of this intriguing gene. The results obtained in the in silico analyzes indicated an RNA mediated TGH, potentially occurred 1325 my (millions of years), as the most plausible hypothesis to explain the origin of dnj-16 and some parasitic species of the Phytophthora genus as probable mediators of this transference. Therefore, data presented in this thesis show for the first time that C. elegans tolerates RHA of magnitude orders higher than it was thought to be compatible with multicellular life. In addition, the data suggest that dnj-16 was transferred horizontally from plants to nematodes and that ultracentrifugation leads to a reduction in C. elegans metabolism, which would help explain its survival under such extreme condition. Finally, the data set of this work represent original contributions to the understanding of the C. elegans\' biology, genetics and evolution.

Arabidopsis thaliana

Arabidopsis thaliana

Caenorhabditis elegans

Caenorhabditis elegans

dnj-16

dnj-16

Hipergravidade

Horizontal gene transfer (HGT)

Hypergravity

Phytophthora

Phytophthora

Transferência gênica horizontal (TGH)

Le transfert horizontal de gènes chez les mycoplasmes : de l'acquisition de l'antibiorésistance à la dynamique des génomes. / Horizontal gene transfer in mycoplasmas : from acquisition of antibiotic resistance to genomes dynamics.

Faucher, Marion

08 November 2018

Les mycoplasmes sont des bactéries atypiques, dépourvues de paroi et souvent considérées comme des cellules minimales du fait de la taille réduite de leur génome. De nombreuses espèces sont pathogènes et ont un impact économique important dans les filières d'élevage, notamment pour les ruminants. Les mycoplasmes n'échappent pas au phénomène mondial de la résistance aux antibiotiques. Contrairement à la plupart des autres bactéries, les mycoplasmes ne contiennent pas de plasmides conjugatifs souvent incriminés dans la dissémination horizontale de gènes de résistance, la base moléculaire principalement décrite étant la mutation chromosomique des gènes cibles. De façon générale, le transfert horizontal de gènes (HGT) chez les mycoplasmes a longtemps été sous-estimé. Récemment, deux mécanismes de HGT ont été décrits chez Mycoplasma agalactiae : le transfert d'élément conjugatif et intégratif (ICE), et le transfert non-conventionnel de régions chromosomiques par conjugaison appelé MCT (Mycoplasma Chromosomal Transfer). Nos travaux se sont attachés à explorer ce dernier mécanisme et à évaluer son impact sur l'acquisition de la résistance aux antibiotiques. Une analyse de génomique comparative a été conduite à partir du séquençage de nombreux mutants spontanément résistants et de transconjugants générés par des expériences de mating et sélectionnés pour leur résistance. Nos résultats montrent que le MCT conduit de façon distributive au transfert simultané de nombreux fragments. En une seule étape de conjugaison impliquant deux souches, ce phénomène génère une population variée de génomes hautement mosaïques. Il accélère la dissémination de l'antibiorésistance, permettant l'acquisition de plusieurs mutations distantes associées à la résistance en un seul événement. De par les multiples possibilités de réassemblage génomique qu'il produit, le MCT pourrait avoir des conséquences importantes sur d'autres processus adaptatifs comme la virulence ou la spécificité d'hôte. Enfin, les modalités distributives et l’ampleur du MCT expliquent l'origine des transferts de gènes précédemment détectés in silico entre de nombreux mycoplasmes. Ce phénomène pourrait donc avoir eu des répercussions importantes sur l'évolution de ces bactéries minimales et être un facteur clé de leur persistance et virulence actuelles. / Mycoplasmas are wall-less bacteria often portrayed as minimal cells because of their reduced genomes. Several species are pathogenic and have a significant economic impact on livestock production, especially for ruminants. Mycoplasmas are also concerned with the worldwide increase in antibiotic resistance. In contrast to the majority of bacteria, these simple bacteria are deprived of conjugative plasmids that are frequently implicated in the horizontal dissemination of resistance genes: in mycoplasmas antibiotic resistance mainly relies on chromosomal mutations in target genes. In Mycoplasmas, the horizontal gene transfer (HGT) has long been underestimated. Recently, two conjugative mechanisms of HGT were described in Mycoplasma agalactiae: the transfer of an integrative and conjugative element (ICE), and the unconventional transfer of chromosomal DNA further designed by “MCT” for Mycoplasma Chromosomal Transfer. Our current study focused on exploring MCT mechanisms and on estimating its impact on antibiotic resistance dissemination. Comparative genomic analyses were performed from the sequencing (i) of spontaneous resistant mutants and (ii) of transconjugants selected by mating experiments and selected based on their resistance. Data revealed that MCT generated the simultaneous transfer of multiple, unrelated donor-fragments following a distributive process. In one conjugative step involving two strains, MCT generated a variety of highly mosaic genomes. This phenomenon was also shown to accelerate the dissemination of antibiotic resistance, by allowing in one step the acquisition of multiple and dispersed mutations associated with resistance. Due to the limitless ability of this phenomenon in reshuffling genomes, MCT may offer a valuable contribution in other adaptive processes such as virulence or host specificity. Finally, the distributive nature and the extent of MCT explain the origin of genes transfers detected in silico in several mycoplasma species. MCT is certainly a major player in the evolution of these minimal bacteria and a key factor of their persistence and virulence.

Mycoplasma agalactiae

Transfert horizontal de gènes

Antibiorésistance

Mutations

Transfert chromosomique

Adaptation

Mycoplasma agalactiae

Horizontal gene transfer

Antibiotic resistance

Mutations

Chromosomal transfer

Adaptation

630

Disseminação da resistência a antimicrobianos em cepas clínicas e ambientais de Enterobacteriaceae: identificação e mapeamento do ambiente genético de genes codificadores de ESBL / Spread of antimicrobial resistance in enterobacteriaceae clinical and environmental strains: identification and genetic environment mapping of ESBL encoding genes

Dropa, Milena

28 February 2013

Introdução. A resistência bacteriana é facilitada pela pressão seletiva do uso de antimicrobianos na clínica e em outras atividades, como a agricultura e pecuária, além de poder ser disseminada para a natureza por meio do lançamento inadequado do esgoto ou pela aplicação do lodo de esgoto na agricultura. As -lactamases de espectro estendido (ESBL) são uma das formas mais prevalentes de resistência em Gram negativos no mundo, e seus genes codificadores são disseminados por meio de diversos elementos genéticos, principalmente transposons e integrons mobilizados para plasmídios. Objetivo. Identificar e caracterizar genes codificadores de ESBL, bem como suas prováveis formas de mobilização, em enterobactérias isoladas de fontes ambientais e clínicas. Material e Métodos. Quarenta e cinco cepas isoladas de um hospital público em 2004 e 2005, responsáveis por infecções hospitalares (14), infecções comunitárias (7) e colonizações (24), e 7 isoladas de estações de tratamento de esgoto (ETE) em 2009, em São Paulo, geneticamente distintas e produtoras de ESBL da família Enterobacteriaceae, foram estudadas. A técnica de PCR seguida de sequenciamento foi utilizada para a identificação dos genes blaESBL, triagem de elementos móveis e mapeamento do ambiente genético de blaESBL. A identificação dos grupos de incompatibilidade plasmidial (Inc) foi realizada pela técnica de PBRT, e a determinação dos tamanhos dos plasmídios pela técnica de S1-PFGE. Resultados. Os genes blaESBL identificados foram: amostras clínicas - blaTEM-15, blaTEM-197, blaSHV-5, blaSHV-12, blaSHV-27, blaSHV-28, blaSHV-45, blaSHV-55, blaSHV-110, blaCTX-M-2, blaCTX-M-59 e blaCTX-M-131; amostras ambientais blaSHV-28, blaCTX-M-15 e blaCTX-M-8. Os genes blaTEM- 15 e blaTEM-197 estavam associados aos elementos Tn2* e Tn3, respectivamente. Os genes blaSHV-5 e blaSHV-12 estavam associados à IS26, e não foi possível determinar o ambiente genético dos demais genes blaSHV. Os genes blaCTX-M-2, blaCTX-M-59 e blaCTXM- 131 estavam inseridos em integrons de classe 1 complexos, blaCTX-M-15 estava associado à ISEcp1 interrompida pela IS26, e blaCTX-M-8 estava associado à IS10, também interrompida pela IS26. Os principais grupos Inc detectados foram IncA/C (37 por cento ) e IncF (30,4 por cento ). Exceto por 7 cepas clínicas, todas apresentavam plasmídios de alto peso molecular, entre 48,5kb e 388kb. Conclusões. Este estudo detectou 15 genes blaESBL diferentes, dos quais dois são genes novos (blaTEM-197 e blaCTX-M-131) e três são inéditos no Brasil (blaTEM-15, blaSHV-55 e blaSHV-110). A maioria das cepas deste estudo possuía genes blaESBL associados a elementos mobilizáveis, bem como continham plasmídios de grupos Inc envolvidos na disseminação da resistência antimicrobiana. Além disso, carreavam plasmídios provavelmente conjugativos. Os resultados deste estudo mostram genes de resistência associados a elementos mobilizáveis em cepas contendo elementos transferíveis. As cepas foram isoladas tanto em uma instituição de saúde como nas ETEs da Grande São Paulo, mostrando o potencial de disseminação da resistência da clínica para o ambiente em nossa região. / Introduction. Bacterial resistance is facilitated by selective pressure of antimicrobial use in clinical and other activities, as agriculture and livestock, and can be spread to nature through the inadequate discharge of sewage or by the use of sludge in agriculture. Extended-spectrum -lactamases (ESBL) are the most prevalente forms of resistance in Gram-negative bacteria in the world, and their encoding genes are disseminated through several genetic elements, especially transposons and integrons mobilized to plasmids. Objective. To identify and characterize ESBL-encoding genes, as well as their probable mobilization pathways, in enterobacteria isolated from clinical and environmental sources. Material and Methods. Forty-five strains isolated from a public hospital in 2004 and 2005, responsible for hospital infections (14), community-acquired infections (7) and colonizations (24), and 7 isolated from sewage treatment plants (ETE) in 2009, in São Paulo, genetically distinct and ESBL producers from Enterobacteriaceae family, were studied. PCR technique followed by sequencing was used for blaESBL genes identification, mobile elements screening and blaESBL genetic environment mapping. Plasmid incompatibility groups (Inc) were identified by PBRT technique, and plasmid sizes were determined by S1-PFGE technique. Results. The blaESBL genes identified were: clinical samples - blaTEM-15, blaTEM-197, blaSHV-5, blaSHV-12, blaSHV-27, blaSHV-28, blaSHV-45, blaSHV-55, blaSHV-110, blaCTX-M-2, blaCTX-M-59 and blaCTX-M-131; environmental samples blaSHV-28, blaCTX-M-15 and blaCTX-M-8. Genes blaTEM-15 and blaTEM-197 were associated to the elements Tn2* and Tn3, respectivelly. Genes blaSHV-5 and blaSHV-12 were associated to IS26, and it was not possible to detect the genetic environment of the other blaSHV genes. Genes blaCTX-M-2, blaCTX-M-59 and blaCTX-M-131 were inserted in complex class 1 integrons, blaCTX-M-15 was associated to ISEcp1 interrupted by IS26, and blaCTX-M-8 was associated to IS10, also interrupted by IS26. The most common Inc grups detected were IncA/C (37 per cent ) and IncF (30,4 per cent ). Except for 7 clinical strains, all isolates showed high molecular weight plasmids, rangng from 48,5kb to 388kb. Conclusions. This study detected 15 different blaESBL genes, from which 2 are new genes (blaTEM-197 e blaCTX-M-131) and 3 are still unpublished in Brazil (blaTEM-15, blaSHV-55 and blaSHV-110). Most of the strains from this study had blaESBL genes associated to mobile elements, as well as they had plasmids from Inc groups involved in the spread of antimicrobial resistance. Moreover, the strains probably carried conjugative plasmids. Results from the present work show resistance genes associated to mobile elements in strains carrying transferable elements. The strains were isolated either from a healthcare institution or from ETEs in São Paulo, which shows the spread potential of resistance from the clinic to the environment in our region.

Antimicrobial Resistance

ESBL

ESBL

Horizontal Gene Transfer

Integrons

Integrons

Lactamases

Lactamases

Plasmídios

Plasmids

Public Health

Resistência Antimicrobiana

Saúde Pública

Transferência Genética Horizontal

Transposons

Transposons

Characterization of two eukaryotic cytoskeletal proteins horizontally transferred to a cyanobacterium

Guljamow, Arthur

07 March 2012

Das Cyanobakterium Microcystis aeruginosa PCC 7806 enthält zwei Proteine unbekannter Funktion, welche eine hohe Sequenzähnlichkeit mit Bausteinen des eukaryotischen Aktinzytoskeletts haben. Eines dieser Proteine ist Aktin selbst, das andere ist das Aktinbindeprotein Profilin. Die vorliegende Arbeit enthält eine detaillierte Charakterisierung beider Proteine sowie Vergleiche mit ihren eukaryotischen Verwandten. So inhibiert, im Gegensatz zu Eukaryoten, cyanobakterielles Aktin nicht das Enzym DNaseI. Es bildet jedoch Polymere, die hier mit Phalloidin visualisiert wurden. Konfokale Mikroskopie offenbart klare Unterschiede in den Polymeren, da die cyanobakteriellen eine Länge von 10 µm nicht überschreiten und breiter sind als die zylindrischen, ca. 100 µm langen Filamente eukaryotischen Aktins. Röntgen-Kleinwinkelstreuungsdaten zeigen, dass cyanobakterielle Aktinpolymere in ihrer Form am ehesten einem Band ähneln. Es bestehen auch Unterschiede hinsichtlich des Profilins: während es in Eukaryoten ausschließlich Aktinmonomere bindet, assoziiert cyanobakterielles Profilin mit Aktinfilamenten und vermittelt die Entstehung flächiger Heteropolymere. GFP-Fusionsstudien zeigen, dass die Koexpression von Aktin und Profilin die Bildung eines Hohlraumkompartiments in E.coli nach sich zieht. Ähnliche Gebilde wurden bereits in Microcystis gezeigt und könnten auf die beobachteten Heteropolymere zurückzuführen sein. Diese Arbeit verdeutlicht, dass beide Proteine in einer natürlichen Bakterienpopulation etabliert sind und dort Merkmale tragen, die ihre eukaryotischen Vorläufer nicht zeigen. Folglich könnte die Anpassung an die räumlichen Begrenzungen einer Bakterienzelle, welcher die für die Regulierung der Polymerisation notwendigen Aktinbindeproteine fehlen, die Triebkraft für eine Koevolution von cyanobakteriellem Aktin und Profilin gewesen sein. Dieser Prozess gipfelte möglicherweise in der Entstehung eines neuartigen intrazellulären Gebildes von potentiell struktureller Bedeutung. / The cyanobacterium Microcystis aeruginosa PCC 7806 harbors two proteins with unknown functions that were transferred horizontally from eukaryotes and show a high degree of sequence identity with key components of the eukaryotic actin cytoskeleton. One is actin itself; the other is profilin, an actin binding protein. This work presents the detailed characterization of both proteins and comparisons with the eukaryotic archetype. In contrast to bona fide actin, its cyanobacterial counterpart does not inhibit DNaseI. It forms polymers that can be visualized with labeled phalloidin, resembling eukaryotic actin in that respect. However, confocal microscopy reveals key differences between polymers of eukaryotic and cyanobacterial actin. Whereas the former appear as cylindrical filaments about 100 µm in length, the latter are shorter and wider arresting polymerization at 5-10 µm. Structural elucidation by Small-angle X-ray scattering shows that cyanobacterial actin polymers are ribbon-shaped. This work also shows fundamental differences between cyanobacterial and eukaryotic profilin. Most importantly, cyanobacterial profilin binds actin filaments and mediates their assembly into heteropolymeric sheets. GFP labeling experiments show that the co-expression of cyanobacterial profilin and actin results in the formation of large hollow enclosures in E.coli. These structures resemble the shell-like distribution of actin in Microcystis aeruginosa and may be based on the actin/profilin heteropolymers observed in vitro. This work shows that both cyanobacterial proteins are established in a natural bacterial community where they have gained properties unknown from their eukaryotic ancestors. Consequently, the adaptation to the confined space of a bacterial cell devoid of binding proteins usually regulating actin polymerization in eukaryotes may have driven the co-evolution of cyanobacterial actin and profilin, giving rise to an intracellular entity of potential structural relevance.

Zytoskelett

Cyanobakterien

Profilin

Aktin

horizontaler Gentransfer

actin

cytoskeleton

cyanobacteria

horizontal gene transfer

profilin

570 Biowissenschaften, Biologie

32 Biologie

WN 8120

ddc:570

Resistência a tetraciclinas em isolados clínicos e ambientais de Escherichia coli, Klebsiella pneumoniae e Aeromonas spp.: identificação e mapeamento do ambiente genético de genes tet / Tetracycline resistance in clinical and environmental isolates of Escherichia coli, Klebsiella pneumoniae and Aeromonas spp.: identification and mapping of tet genes genetic context

Balsalobre, Livia Carminato

30 September 2014

Introdução. A resistência bacteriana a antibióticos é aceita como um dos maiores problemas de saúde pública. As tetraciclinas são antibióticos de amplo espectro, e após seu uso indiscriminado observou-se o surgimento de bactérias resistentes, levando médicos e veterinários a diminuírem seu uso. Objetivos. Verificar o perfil de sensibilidade a tetraciclinas em isolados clínicos e ambientais de Escherichia coli, Klebsiella pneumoniae e Aeromonas spp., bem como pesquisar os principais genes tet associados à resistência a esta classe de antibióticos e determinar a potencial forma de disseminação destes genes através da caracterização de seu ambiente genético. Material e Métodos. Os perfis de sensibilidade à tetraciclina (TET), doxiciclina (DOX), minociclina (MIN) e tigeciclina (TGC) de 572 isolados foram obtidos através das técnicas de Disco-Difusão e Concentração Inibitória Mínima. Os isolados não-sensíveis à tetraciclina foram submetidos a reações de PCR para pesquisa de grupos Inc, genes tet e para a caracterização de seu ambiente genético pela pesquisa das integrases de classes 1, 2, 3 e 4, e dos elementos genéticos móveis Tn1721, IS26, Tn10 e ISAS5. Perfis de similaridade genética dos isolados foram obtidos através das técnicas de ERIC-PCR e PFGE. Após análise destes resultados 33 cepas foram selecionadas para as técnicas de S1-PFGE e transformação. Resultados. A partir dos 572 isolados 18,5 por cento foram resistentes à TET, 13,5 por cento à DOX, 8 por cento à MIN e nenhum à TGC. Vinte e dois por cento dos isolados clínicos e 16,3 por cento ambientais foram resistentes à TET. Os genes codificadores de bomba de efluxo tet(A), tet(B), tet(C), tet(D) e tet(E), foram observados em 25,5 por cento , 33 por cento , 6,5 por cento , 18,9 por cento e 23,5 por cento dos isolados, respectivamente. Noventa e cinco por cento, 100 por cento , 100 por cento e 4,5 por cento das cepas carreando o gene tet(A), tet(B), tet(D) e tet(E), foram não-sensíveis à DOX, nesta ordem. Resistência à MIN foi observada em 4,2 por cento , 78,8 por cento e 100 por cento dos isolados carreando tet(A), tet(B) e tet(D), respectivamente. O gene tet(A) estava associado a Tn1721, tet(B) à Tn10 e tet(C) e tet(D) à IS26. Nenhuma das integrases pesquisadas estavam associadas aos genes tet detectados. Os grupos IncF, IncFIB e IncA/C foram observados em 54,8 por cento , 41,1 por cento e 28,7 por cento dos isolados, respectivamente. Uma cepa de Aeromonas spp. carreava um plasmídio do grupo IncP. Através dos perfis de similaridade genética foi observado que dentre os isolados hospitalares de K. pneumoniae houve a ocorrência de perfis genéticos idênticos, no entanto nos demais isolados do estudo os perfis genéticos observados eram distintos. Das 33 cepas selecionadas para os experimentos de linearização plasmidial e de transformação, 8 foram transformadas com sucesso, nas quais foi observada a presença dos genes tet em plasmídios. Conclusões. Uma baixa porcentagem de resistência à TET foi detectada. Verificou-se que a TGC foi a tetraciclina mais ativa, seguida da MIN. Os genes tet(A) e tet(B) foram os mais prevalentes. Todas as cepas carreando tet(B) e tet(D) foram não-sensíveis a DOX e MIN. Plasmídios dos grupos IncF, FIB e A/C foram os mais detectados neste estudo. Os resultados sugerem que os genes tet(A), (B), (C) e (D) são disseminados por meio de plasmídios e estão associados aos transposons Tn1721, IS10 e IS26. Estudos adicionais com isolados mais recentes e outros gêneros bacterianos são necessários, para contribuir com informações da resistência bacteriana a tetraciclinas. / Introduction. The antibiotic resistance is accepted as one of the major problems for public health. Tetracyclines are broad spectrum antibiotics, and its indiscriminate use promoted the emergence of resistant bacteria, leading physicians and veterinarians to decrease its use. Objectives. Verify the susceptibility of clinical and environmental isolates of Escherichia coli, Klebsiella pneumoniae and Aeromonas spp. to tetracyclines, and also search for the main tet genes associated with resistance to these antibiotics and determine the potential mechanism of tet genes dissemination by characterizing their genetic context. Material and Methods. Disk-Diffusion and Minimum Inhibitory Concentration tests were carried out in 572 isolates using tetracycline (TET), doxycycline (DOX), minocycline (MIN) and tigecycline (TGC). PCR was carried out in TET non-susceptible isolates for the detection of Inc groups, tet genes and its genetic context determination through the search of classes 1, 2, 3, and 4 integrases, and Tn1721, Tn10, IS26 and ISAS5 mobile genetic elements. Genetic similarities patterns were determined by ERIC-PCR and PFGE techniques. After analyzing the results 33 strains were selected for the S1-PFGE and transformation experiments. Results. From 572 isolates, 18.5 per cent were TET-resistant, 13.5 per cent DOX-resistant, 8 per cent MIN-resistant and none resistant to TGC. Twenty-two per cent and 16.3 per cent of clinical and environmental isolates were TET-resistant, in that order. Genes tet(A), tet(B), tet(C), tet(D) and tet(E), coding for efflux pump mechanism, were found in 25.5 per cent , 33 per cent , 6.5 per cent , 18.9 per cent and 23.5 per cent of the isolates, respectively. Ninety-five per cent, 100 per cent , 100 per cent and 4.5 per cent of the isolates carrying tet(A), tet(B), tet(D) and tet(E) were non-susceptible to DOX, respectively. Resistance to MIN was observed in 4.2 per cent , 78.8 per cent and 100 per cent of isolates carrying tet(A), tet(B) and tet(D), in that order. The gene tet(A) was associated with Tn1721, tet(B) with Tn10, and tet(C) and (D) with IS26. None of the searched integrases were associated with the tet genes detected. Groups IncF, IncFIB and IncA/C were respectively observed in 54.8 per cent , 41.1 per cent and 28.7 per cent of the isolates. One Aeromonas spp. was carrying an IncP plasmid. The genetic similarities patterns demonstrated that there were identical genetic patterns among the hospital K. pneumoniae isolates, however all the remaining isolates possessed distinct genetic patterns. Of the 33 strains selected for plasmid linearization and transformation experiments, 8 were successfully transformed, in which the presence of tet genes in plasmids were observed. Conclusions. A low level of tetracycline resistance was detected. TGC was the most active tested antibiotic, followed by MIN. Genes tet(A) and tet(B) were the most prevalent among the isolates. All strains carrying tet(B) and tet(D) were non-susceptible to DOX and MIN. Groups IncF, IncFIB and IncA/C were the most detected in this study. The results suggest that tet(A), (B), (C) and (D) are disseminated by plasmids and are associated with Tn1721, Tn10 and IS26. Additional studies assembling recent isolates and other genera are necessary in order to contribute with information about the bacteria resistance to tetracyclines.

Antimicrobial Resistance

Horizontal Gene Transfer

Integrons

Integrons

Plasmídios

Plasmids

Public Health

Resistência Antimicrobiana

Saúde Pública

Tetraciclinas

Tetracyclines

Transferência Genética Horizontal

Transposons

Transposons

Gene da putativa indolpiruvato descarboxilase de Phytomonas: caracterização, arranjo genômico, marcador molecular e origem filogenética. / Gene of the putative indolepyruvate decarboxylase of Phytomonas: characterization, genomic arrangement, molecular marker and phylogenetic origin.

Silva, Susan Ienne da

09 January 2008

O gênero Phytomonas está associado a enfermidades devastadoras em plantações de interesse econômico, enquanto que outros vegetais parasitados não apresentam nenhum dano aparente. A seqüência-consenso de um agrupamento de ESTs de P. serpens determinado anteriormente apresentou alta similaridade com indolpiruvato descarboxilases (IPDCs) de fitobactérias e putativas piruvato/indolpiruvato descarboxilases de Leishmania spp. A enzima IPDC está na via de biossíntese do ácido 3-indolil acético, um dos hormônios vegetais mais importantes. Verificamos que o gene IPDC está presente em diversos isolados de Phytomonas, em múltiplas cópias (cerca de 104 cópias em P. serpens e 200 cópias em P. françai), contíguas e concentradas em uma banda cromossômica. Análises filogenéticas e amplificações por PCR com oligonucleotídeos degenerados apontam o clado Phytomonas-Leishmania como grupo-irmão de IPDCs de fitobactérias, sugerindo um processo de transferência horizontal anterior à separação dos tripanossomatídeos do clado que também inclui Leptomonas, Herpetomonas e Crithidia. / The genus Phytomonas is associated to devastating diseases in commercially important crops, whereas in other plant species no apparent damage is observed. The consensus sequence of one group of ESTs of P. serpens previously determined showed high similarity with indolepyruvate decarboxylases (IPDCs) from phytobacteria and putative pyruvate/indolepyruvate decarboxylases of Leishmania spp. The enzyme ipdC participates in the biosynthetic pathway of the indole-3-acetic acid, one of the most important plant hormones. We found that the IPDC gene is present in several Phytomonas isolates, in multiple copies (about 104 copies in P. serpens and 200 copies in P. françai, in tandem and concentrated in one chromosomal band. The phylogenetic analyses and data of PCR amplifications with degenerated primers point the clade Phytomonas-Leishmania as a sister group of IPDCs of phytobacteria, suggesting a process of horizontal gene transfer prior to the separation of the trypanosomatid clade that also includes Leptomonas, Phytomonas, Herpetomonas, Leishmania and Crithidia.

Phytomonas

Phytomonas

Fitopatógeno

Gene dosage

Genes de protozoários

Horizontal gene transfer

Número de cópias do gene

Phytopathogen

Protozoan genes

Transferência horizontal gênica

Tripanossomatídeos

Trypanosomatids

Resistência a tetraciclinas em isolados clínicos e ambientais de Escherichia coli, Klebsiella pneumoniae e Aeromonas spp.: identificação e mapeamento do ambiente genético de genes tet / Tetracycline resistance in clinical and environmental isolates of Escherichia coli, Klebsiella pneumoniae and Aeromonas spp.: identification and mapping of tet genes genetic context

Livia Carminato Balsalobre

30 September 2014

Introdução. A resistência bacteriana a antibióticos é aceita como um dos maiores problemas de saúde pública. As tetraciclinas são antibióticos de amplo espectro, e após seu uso indiscriminado observou-se o surgimento de bactérias resistentes, levando médicos e veterinários a diminuírem seu uso. Objetivos. Verificar o perfil de sensibilidade a tetraciclinas em isolados clínicos e ambientais de Escherichia coli, Klebsiella pneumoniae e Aeromonas spp., bem como pesquisar os principais genes tet associados à resistência a esta classe de antibióticos e determinar a potencial forma de disseminação destes genes através da caracterização de seu ambiente genético. Material e Métodos. Os perfis de sensibilidade à tetraciclina (TET), doxiciclina (DOX), minociclina (MIN) e tigeciclina (TGC) de 572 isolados foram obtidos através das técnicas de Disco-Difusão e Concentração Inibitória Mínima. Os isolados não-sensíveis à tetraciclina foram submetidos a reações de PCR para pesquisa de grupos Inc, genes tet e para a caracterização de seu ambiente genético pela pesquisa das integrases de classes 1, 2, 3 e 4, e dos elementos genéticos móveis Tn1721, IS26, Tn10 e ISAS5. Perfis de similaridade genética dos isolados foram obtidos através das técnicas de ERIC-PCR e PFGE. Após análise destes resultados 33 cepas foram selecionadas para as técnicas de S1-PFGE e transformação. Resultados. A partir dos 572 isolados 18,5 por cento foram resistentes à TET, 13,5 por cento à DOX, 8 por cento à MIN e nenhum à TGC. Vinte e dois por cento dos isolados clínicos e 16,3 por cento ambientais foram resistentes à TET. Os genes codificadores de bomba de efluxo tet(A), tet(B), tet(C), tet(D) e tet(E), foram observados em 25,5 por cento , 33 por cento , 6,5 por cento , 18,9 por cento e 23,5 por cento dos isolados, respectivamente. Noventa e cinco por cento, 100 por cento , 100 por cento e 4,5 por cento das cepas carreando o gene tet(A), tet(B), tet(D) e tet(E), foram não-sensíveis à DOX, nesta ordem. Resistência à MIN foi observada em 4,2 por cento , 78,8 por cento e 100 por cento dos isolados carreando tet(A), tet(B) e tet(D), respectivamente. O gene tet(A) estava associado a Tn1721, tet(B) à Tn10 e tet(C) e tet(D) à IS26. Nenhuma das integrases pesquisadas estavam associadas aos genes tet detectados. Os grupos IncF, IncFIB e IncA/C foram observados em 54,8 por cento , 41,1 por cento e 28,7 por cento dos isolados, respectivamente. Uma cepa de Aeromonas spp. carreava um plasmídio do grupo IncP. Através dos perfis de similaridade genética foi observado que dentre os isolados hospitalares de K. pneumoniae houve a ocorrência de perfis genéticos idênticos, no entanto nos demais isolados do estudo os perfis genéticos observados eram distintos. Das 33 cepas selecionadas para os experimentos de linearização plasmidial e de transformação, 8 foram transformadas com sucesso, nas quais foi observada a presença dos genes tet em plasmídios. Conclusões. Uma baixa porcentagem de resistência à TET foi detectada. Verificou-se que a TGC foi a tetraciclina mais ativa, seguida da MIN. Os genes tet(A) e tet(B) foram os mais prevalentes. Todas as cepas carreando tet(B) e tet(D) foram não-sensíveis a DOX e MIN. Plasmídios dos grupos IncF, FIB e A/C foram os mais detectados neste estudo. Os resultados sugerem que os genes tet(A), (B), (C) e (D) são disseminados por meio de plasmídios e estão associados aos transposons Tn1721, IS10 e IS26. Estudos adicionais com isolados mais recentes e outros gêneros bacterianos são necessários, para contribuir com informações da resistência bacteriana a tetraciclinas. / Introduction. The antibiotic resistance is accepted as one of the major problems for public health. Tetracyclines are broad spectrum antibiotics, and its indiscriminate use promoted the emergence of resistant bacteria, leading physicians and veterinarians to decrease its use. Objectives. Verify the susceptibility of clinical and environmental isolates of Escherichia coli, Klebsiella pneumoniae and Aeromonas spp. to tetracyclines, and also search for the main tet genes associated with resistance to these antibiotics and determine the potential mechanism of tet genes dissemination by characterizing their genetic context. Material and Methods. Disk-Diffusion and Minimum Inhibitory Concentration tests were carried out in 572 isolates using tetracycline (TET), doxycycline (DOX), minocycline (MIN) and tigecycline (TGC). PCR was carried out in TET non-susceptible isolates for the detection of Inc groups, tet genes and its genetic context determination through the search of classes 1, 2, 3, and 4 integrases, and Tn1721, Tn10, IS26 and ISAS5 mobile genetic elements. Genetic similarities patterns were determined by ERIC-PCR and PFGE techniques. After analyzing the results 33 strains were selected for the S1-PFGE and transformation experiments. Results. From 572 isolates, 18.5 per cent were TET-resistant, 13.5 per cent DOX-resistant, 8 per cent MIN-resistant and none resistant to TGC. Twenty-two per cent and 16.3 per cent of clinical and environmental isolates were TET-resistant, in that order. Genes tet(A), tet(B), tet(C), tet(D) and tet(E), coding for efflux pump mechanism, were found in 25.5 per cent , 33 per cent , 6.5 per cent , 18.9 per cent and 23.5 per cent of the isolates, respectively. Ninety-five per cent, 100 per cent , 100 per cent and 4.5 per cent of the isolates carrying tet(A), tet(B), tet(D) and tet(E) were non-susceptible to DOX, respectively. Resistance to MIN was observed in 4.2 per cent , 78.8 per cent and 100 per cent of isolates carrying tet(A), tet(B) and tet(D), in that order. The gene tet(A) was associated with Tn1721, tet(B) with Tn10, and tet(C) and (D) with IS26. None of the searched integrases were associated with the tet genes detected. Groups IncF, IncFIB and IncA/C were respectively observed in 54.8 per cent , 41.1 per cent and 28.7 per cent of the isolates. One Aeromonas spp. was carrying an IncP plasmid. The genetic similarities patterns demonstrated that there were identical genetic patterns among the hospital K. pneumoniae isolates, however all the remaining isolates possessed distinct genetic patterns. Of the 33 strains selected for plasmid linearization and transformation experiments, 8 were successfully transformed, in which the presence of tet genes in plasmids were observed. Conclusions. A low level of tetracycline resistance was detected. TGC was the most active tested antibiotic, followed by MIN. Genes tet(A) and tet(B) were the most prevalent among the isolates. All strains carrying tet(B) and tet(D) were non-susceptible to DOX and MIN. Groups IncF, IncFIB and IncA/C were the most detected in this study. The results suggest that tet(A), (B), (C) and (D) are disseminated by plasmids and are associated with Tn1721, Tn10 and IS26. Additional studies assembling recent isolates and other genera are necessary in order to contribute with information about the bacteria resistance to tetracyclines.

Integrons

Plasmídios

Resistência Antimicrobiana

Saúde Pública

Tetraciclinas

Transferência Genética Horizontal

Transposons

Antimicrobial Resistance

Horizontal Gene Transfer

Integrons

Plasmids

Public Health

Tetracyclines

Transposons