Prospecção de genes biossintéticos de policetídeos a partir de fungos isolados de cana-de-açúcar. / Screening of polyketides biosynthetic genes from sugarcane derived fungi.

Rojas, Juan Diego Rojas

03 November 2010

A partir de 280 isolados fúngicos de cana-de-açúcar, 18 cepas foram avaliadas quanto á presença de genes da policetídeo sintase por meio da técnica do PCR. Estes fungos foram identificados taxonomicamente por uma abordagem polifásica, classificando-os dentro de quatro ordens e nove gêneros. A avaliação da atividade biológica demonstrou a presença de metabolitos com propriedades antibióticas quando enfrentados a micro-organismos patogênicos. Segundo a análise de correspondência múltipla, esta atividade poderia estar associada com a local de isolamento dos fungos. Foram detectadas 36 seqüências similares a genes PKS a partir de 17 destes fungos. A análise filogenética do domínio KS, conduzida pelo método de neighbor-joining, indicou que 16 seqüências se acomodaram dentro do grupo monofilético dos PKS envolvidos na produção de policetídeos não reduzidos e as outras 10 seqüências se acomodaram dentro do grupo monofilético dos PKS envolvidos na produção de policetídeos reduzidos. A análise do domínio CMT também apontou que as seqüências podiam se acomodaram em grupos de PKS dependendo do grau de redução do policetídeo, todas as seqüências CMT se relacionaram com PKS envolvidos na produção de policetídeos reduzidos. As análises dos modelos estruturais também demonstraram que as seqüências estavam altamente relacionadas com estruturas protéicas da família das enzimas de condensação, destacando a presença de uma hélice característica que carrega o resíduo de cisteína, responsável pela atividade de condensação. Extratos orgânicos obtidos de cultivos dos fungos foram avaliados parar detectar a presença de compostos tipo lovastatina. Por meio de cromatografia CCDS, detectaram-se bandas de 10 extratos com o mesmo deslocamento que a lovastatina padrão, mas apenas 6 destas foram confirmados por CLAE. O isolado A. flavus CBMAI 1023, foi selecionado para a realização de experimentos de produção a maior escala onde foi possível isolar e caracterizar um novo policetídeo. / From a group of 280 sugarcane-derived fungi 18 strains were assessed for the presence of polyketide synthase genes by PCR approaches. These fungi were identified taxonomically by a polyphasic approach classifying into four orders and nine genres. Biological activity tests showed the presence of antibiotic metabolites against pathogenic microorganisms and the relationship of this activity might be linked with the fungal isolate location by multiple correspondence analyses. 36 sequences similar to PKS genes fragments were detected from 17 of these fungi. A neighbor-joining phylogenetic analysis of the KS domain showed that 16 sequences fit on the monophyletic group of PKS evolved with production of non reduced polyketides, and the other 10 sequences fit on the monophyletic group of PKS evolved with the production of reduced polyketides. CMT domain analysis also pointed that the sequences fit with groups of PKS depending on polyketide reduction grade, all ten related to PKS evolved with the synthesis of reduced polyketides. Protein structural analysis also pointed out that these sequences are closely related with proteins from condensing enzyme family, highlighting the presence of a characteristic helix elbow that bears the cysteine residue responsible for the condensation activity. The fungi were also tested for their capacity of producing lovastatin compounds where chromatographic TLC detected bands from 10 extracts with the same dislocation compared to a lovastatin, but only 6 were confirmed by HPLC. The A. flavus CBMAI (1023) were selected for upscale production experiments, from where it was possible isolate and characterize a new polyketide compound.

C methyltransferase (CMT)

C-metiltransferase (CMT)

Cetosintase (KS)

Chromatography

Cromatografia

Endophytic fungi

Fungos endofíticos

Genes

Genes

Genética microbiana

Keto synthase (KS)

Lovastatin

Lovastatina

Microbial genetics

Policetídeo sintase (PKS)

Policetídeos (PK)

Polyketide (PK)

Polyketide synthase (PKS)

Polymerase Chain Reaction (PCR)

Reação em Cadeia por Polimerase (PCR)

Microbial factors associated with the natural suppression of take-all wheat in New Zealand

Chng, Soon Fang

January 2009

Take-all, caused by the soilborne fungus, Gaeumannomyces graminis var. tritici (Ggt), is an important root disease of wheat that can be reduced by take-all decline (TAD) in successive wheat crops, due to general and/or specific suppression. A study of 112 New Zealand wheat soils in 2003 had shown that Ggt DNA concentrations (analysed using real-time PCR) increased with successive years of wheat crops (1-3 y) and generally reflected take-all severity in subsequent crops. However, some wheat soils with high Ggt DNA concentrations had low take-all, suggesting presence of TAD. This study investigated 26 such soils for presence of TAD and possible suppressive mechanisms, and characterised the microorganisms from wheat roots and rhizosphere using polymerase chain reaction (PCR) and denaturing gradient gel electrophoresis (DGGE). A preliminary pot trial of 29 soils (including three from ryegrass fields) amended with 12.5% w/w Ggt inoculum, screened their suppressiveness against take-all in a growth chamber. Results indicated that the inoculum level was too high to detect the differences between soils and that the environmental conditions used were unsuitable. Comparison between the Ggt DNA concentrations of the same soils collected in 2003 and in 2004 (collected for the pot trial), showed that most soils cropped with 2, 3 and 4 y of successive wheat had reduced Ggt DNA concentrations (by 195-2911 pg g-1 soil), and their disease incidences revealed 11 of the 29 test soils with potential take-all suppressiveness. Further pot trials improved the protocols, such that they were able to differentiate the magnitudes of suppressiveness among the soils. The first of the subsequent trials, using 4% w/w Ggt inoculum level, controlled conditions at 16°C, 80% RH with alternate 12 h light/dark conditions, and watering the plants twice weekly to field capacity (FC), screened 13 soils for their suppressiveness against take-all. The 13 soils consisted of 11 from the preliminary trial, one wheat soil that had been cropped with 9 y of wheat (considered likely to be suppressive), and a conducive ryegrass soil. The results revealed that 10 of these soils were suppressive to take-all. However, in only four of them were the effects related to high levels of microbial/biological involvement in the suppression, which were assessed in an experiment that first sterilised the soils. In a repeat trial using five of the soils H1, H3, M2, P7 (previously cropped with 3, 3, 4 and 9 y successive wheat, respectively) and H15 (previously cropped with 5 y of ryegrass), three of them (H1, H3 and M2) had reduced Ggt DNA concentrations (>1000 pg g-1 soil reductions), and were confirmed to be suppressive to take-all. A pot trial, in which 1% of each soil was transferred into a γ-irradiated base soil amended with 0.1% Ggt inoculum, indicated that soils H1 and H3 (3 y wheat) were specific in their suppressiveness, and M2 (4 y wheat) was general in its suppressiveness. The microbial communities within the rhizosphere and roots of plants grown in the soils, which demonstrated conduciveness, specific or general suppressiveness to take-all, were characterised using PCR-DGGE, and identities of the distinguishing microorganisms (which differentiated the soils) identified by sequence analysis. Results showed similar clusters of microorganisms associated with conducive and suppressive soils, both for specific and general suppression. Further excision, re-amplification, cloning and sequencing of the distinguishing bands showed that some actinomycetes (Streptomyces bingchengensis, Terrabacter sp. and Nocardioides sp.), ascomycetes (Fusarium lateritium and Microdochium bolleyi) and an unidentified fungus, were associated with the suppressive soils (specific and general). Others, such as the proteobacteria (Pseudomonas putida and P. fluorescens), an actinomycete (Nocardioides oleivorans), ascomycete (Gibberella zeae), and basidiomycete (Penicillium allii), were unique in the specific suppressiveness. This indicated commonality of some microorganisms in the take-all suppressive soils, with a selected distinguishing group responsible for specific suppressiveness. General suppressiveness was considered to be due to no specific microorganisms, as seen in soil M2. An attempt to induce TAD by growing successive wheat crops in pots of Ggt-infested soils was unsuccessful with no TAD effects shown, possibly due to variable Ggt DNA concentrations in the soils and addition of nutrients during the experiment. Increasing numbers of Pseudomonas fluorescens CFU in the rhizosphere of plants, during successive wheat crops was independent of the Ggt DNA concentrations and disease incidence, suggesting that increases in P. fluorescens numbers were associated with wheat monoculture. This study has demonstrated that TAD in New Zealand was due to both specific and general suppressiveness, and has identified the distinguishing microorganisms associated with the suppression. Since most of these distinguishing microorganisms are known to show antagonistic activities against Ggt or other soilborne pathogens, they are likely to act as antagonists of Ggt in the field. Future work should focus on validating their effects either individually, or interactively, on Ggt in plate and pot assays and under field conditions.

Gaeumannomyces graminis var. tritici

take-all

successive wheat

DNA

inoculum

suppressive soils

take-all decline

microbial populations

wheat

Prospecção de genes biossintéticos de policetídeos a partir de fungos isolados de cana-de-açúcar. / Screening of polyketides biosynthetic genes from sugarcane derived fungi.

Juan Diego Rojas Rojas

03 November 2010

A partir de 280 isolados fúngicos de cana-de-açúcar, 18 cepas foram avaliadas quanto á presença de genes da policetídeo sintase por meio da técnica do PCR. Estes fungos foram identificados taxonomicamente por uma abordagem polifásica, classificando-os dentro de quatro ordens e nove gêneros. A avaliação da atividade biológica demonstrou a presença de metabolitos com propriedades antibióticas quando enfrentados a micro-organismos patogênicos. Segundo a análise de correspondência múltipla, esta atividade poderia estar associada com a local de isolamento dos fungos. Foram detectadas 36 seqüências similares a genes PKS a partir de 17 destes fungos. A análise filogenética do domínio KS, conduzida pelo método de neighbor-joining, indicou que 16 seqüências se acomodaram dentro do grupo monofilético dos PKS envolvidos na produção de policetídeos não reduzidos e as outras 10 seqüências se acomodaram dentro do grupo monofilético dos PKS envolvidos na produção de policetídeos reduzidos. A análise do domínio CMT também apontou que as seqüências podiam se acomodaram em grupos de PKS dependendo do grau de redução do policetídeo, todas as seqüências CMT se relacionaram com PKS envolvidos na produção de policetídeos reduzidos. As análises dos modelos estruturais também demonstraram que as seqüências estavam altamente relacionadas com estruturas protéicas da família das enzimas de condensação, destacando a presença de uma hélice característica que carrega o resíduo de cisteína, responsável pela atividade de condensação. Extratos orgânicos obtidos de cultivos dos fungos foram avaliados parar detectar a presença de compostos tipo lovastatina. Por meio de cromatografia CCDS, detectaram-se bandas de 10 extratos com o mesmo deslocamento que a lovastatina padrão, mas apenas 6 destas foram confirmados por CLAE. O isolado A. flavus CBMAI 1023, foi selecionado para a realização de experimentos de produção a maior escala onde foi possível isolar e caracterizar um novo policetídeo. / From a group of 280 sugarcane-derived fungi 18 strains were assessed for the presence of polyketide synthase genes by PCR approaches. These fungi were identified taxonomically by a polyphasic approach classifying into four orders and nine genres. Biological activity tests showed the presence of antibiotic metabolites against pathogenic microorganisms and the relationship of this activity might be linked with the fungal isolate location by multiple correspondence analyses. 36 sequences similar to PKS genes fragments were detected from 17 of these fungi. A neighbor-joining phylogenetic analysis of the KS domain showed that 16 sequences fit on the monophyletic group of PKS evolved with production of non reduced polyketides, and the other 10 sequences fit on the monophyletic group of PKS evolved with the production of reduced polyketides. CMT domain analysis also pointed that the sequences fit with groups of PKS depending on polyketide reduction grade, all ten related to PKS evolved with the synthesis of reduced polyketides. Protein structural analysis also pointed out that these sequences are closely related with proteins from condensing enzyme family, highlighting the presence of a characteristic helix elbow that bears the cysteine residue responsible for the condensation activity. The fungi were also tested for their capacity of producing lovastatin compounds where chromatographic TLC detected bands from 10 extracts with the same dislocation compared to a lovastatin, but only 6 were confirmed by HPLC. The A. flavus CBMAI (1023) were selected for upscale production experiments, from where it was possible isolate and characterize a new polyketide compound.

C-metiltransferase (CMT)

Cetosintase (KS)

Cromatografia

Fungos endofíticos

Genes

Genética microbiana

Lovastatina

Policetídeo sintase (PKS)

Policetídeos (PK)

Reação em Cadeia por Polimerase (PCR)

C methyltransferase (CMT)

Chromatography

Endophytic fungi

Genes

Keto synthase (KS)

Lovastatin

Microbial genetics

Polyketide (PK)

Polyketide synthase (PKS)

Polymerase Chain Reaction (PCR)

The role of the Borrelia oxidative stress regulator protein in virulence gene expression of the Lyme disease spirochete

Khoo, Joleyn Yean Chern

25 February 2014

Indiana University-Purdue University Indianapolis (IUPUI) / The Lyme disease agent, Borrelia burgdorferi, has a complex system that allows it to thrive in the harsh and distinct environments of its tick vector and mammalian host. Although it has been known for some time that the Borrelia oxidative stress regulator protein (BosR) plays a necessary role in mammalian infectivity and functions as a transcriptional regulator of alternative sigma factor RpoS, very little is known about its mechanism of action, other than the suggestion that BosR activates rpoS transcription by binding to certain upstream regions of the gene. In our studies, we performed protein degradation assays and luciferase reporter assays for further understanding of BosR function. Our preliminary findings suggest that BosR is post-transcriptionally regulated by an unknown protease and may not need to bind to any rpoS upstream regions in order to activate transcription. We also describe the construction of luciferase reporter systems that will shed light on BosR’s mechanism of action. We postulate the provocative possibility that unlike its homologs Fur and PerR in other bacterial systems, BosR may not utilize a DNA-binding mechanism in order to fulfill its role as a transcriptional regulator to modulate virulence gene expression.

Lyme disease -- Research -- Analysis

Borrelia burgdorferi -- Research

Genetic regulation

Gene expression -- Technique

Genetic transcription -- Regulation

Protease inhibitors

Virulence (Microbiology)

RNA polymerases

Polymerase chain reaction

Ticks as carriers of disease

Microbial genetics -- Technique

Polyacrylamide gel electrophoresis