Structural and Functional Investigations into the Biosynthesis of Peptide Natural Products

Condurso, Heather Lindsay

January 2013

Thesis advisor: Marc Snapper / Thesis advisor: Steven Bruner / Peptide natural products have diverse, elaborate scaffolds and are important leads in the development of new drugs. A complete understanding of the natural biosynthetic pathways of these compounds can improve chemical syntheses and boost bioengineering efforts. There are two classes of peptide natural products: ribosomal and nonribosomal peptides. Ribosomally produced and posttranslationally modified peptides (RiPPs) are produced by the ribosome using the 20 canonical amino acids and undergo extensive tailoring to yield the active natural products. Nonribosomal peptides (NRPs) are assembled through an enzyme dependent system and can incorporate over 500 different amino and acyl building blocks to impart complexity. These peptides can also undergo additional tailoring to further modify the core peptide. The microviridins are a class of RiPPs that are modified by two ATP dependent ligases to create a total of three macrocyclic bonds. We have solved the three dimensional protein structures of each of these ligases to establish the mechanism of substrate recognition and cyclization. Vancomycin is a NRP that contains five nonproteinogenic aromatic amino acids that are necessary for biological activity. One of these amino acids is derived from a polyketide pathway and undergoes a four-electron oxidation by a cofactor independent dioxygenase, DpgC. We have solved the structure of this enzyme and have established a radical mechanism. We have investigated this mechanism using synthetic probes and mutagenesis. We have examined O₂ binding using molecular dynamics and mutagenesis. NRPs are synthesized by the multidomain, modular nonribosomal peptide synthetases (NRPSs) in an enzyme templated, ATP-dependent manner. We have synthesized domain specific probes to study the structures and mechanisms of these pathways. Our continued work will provide the insight necessary to manipulate these pathways to provide biologically active compounds. / Thesis (PhD) — Boston College, 2013. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

cyclic peptides

microviridin

natural products

nonribosomal peptides

ribosomal peptides

Identification and characterisation of ribosomal biosynthesis pathways of two cyclic peptides from cyanobacteria

Ziemert, Nadine

19 November 2009

Naturstoffe sind eine der wichtigsten Quellen für die Entwicklung neuer Pharmazeutika. Eine Vielzahl von bioaktiven Substanzen mit potentieller Anti-Krebs, Anti-HIV oder antimikrobieller Wirkung wurde aus der Gruppe der Cyanobakterien isoliert. Die meisten dieser Metabolite sind Peptide oder besitzen peptid-ähnliche Strukturen und werden nicht-ribosomal von großen, modular aufgebauten Enzymkomplexen gebildet. Vor kurzem konnte anhand der Patellamide gezeigt werden, dass zyklische Peptide auch ribosomal hergestellt werden können. Microcystis aeruginosa NIES298 produziert eine Reihe von Sekundärmetaboliten, unter anderem die nicht-ribosomalen Peptide Microcystin und Aeruginosin. Zwei weiteren von diesem Stamm produzierten Peptiden, Microcyclamid und Microviridin B, konnten bislang noch keine Gene zugeordnet werden. In dieser Studie wurden ribosomale Biosynthesewege für beide Peptidfamilien identifiziert. Die zur Biosynthese des cytotoxischen Hexapeptids Microcyclamid notwendigen Enzyme zeigen eine hohe Ähnlichkeit zu den Patellamid-Enzymen und weisen auf ähnliche Biosynthesemechanismen hin. Ein völlig neuer Syntheseweg, in dem bis dahin unbekannte ATP-grasp-Ligasen eine Rolle spielen, konnte für den trizyklischen Proteaseinhibitor Microviridin gefunden werden. Die erfolgreiche heterologe Expression dieses Peptids in E. coli bietet die Möglichkeit Bibliotheken von Microviridin-Varianten mit neuen oder verbesserten Bioaktivitäten zu konstruieren. Die systematische Suche nach ähnlichen Biosynthesegenen in Microcystis Laborstämmen und Gewässerproben zeigte eine weite Verbreitung und eine große Diversität der untersuchten Peptidklassen in Cyanobakterien, und stellt die Frage nach der natürlichen Funktion dieser Metabolite. Um erste Hinweise zu erhalten, wurden Trankriptions- und Expressionsstudien der Biosynthesegene durchgeführt. Schließlich konnten, mit Hilfe des so genannten „genome-mining“, neue Varianten der untersuchten Peptidklassen gefunden und aufgeklärt werden. / Microbial natural products represent a major source for the development of new therapeutic agents. A diverse array of compounds is produced by cyanobacteria, a heterogenous group of aerobic photoautotrophs. A variety of bioactive metabolites with potential anti-cancer, anti-microbial and anti-HIV activities have been isolated. Most of the compounds are peptides or possess peptidic structures and are usually made by large nonribosomal assembly lines. However, a ribosomal origin has recently been demonstrated for the biosynthesis of patellamides, cytotoxic cyclic peptides produced by cyanobacterial symbionts of ascidians. Microcystis aeruginosa NIES298 produces various peptides including microcystin, aeruginosin, microviridin and microcyclamide. For the latter two classes of peptides ribosomal biosynthesis pathways could be identified in the course of this study. The cytotoxic hexapeptide microcyclamide is formed through the activity of a set of enzymes closely related to those involved in patellamide biosynthesis. The multicyclic microviridin family of protease inhibitors are synthesised from a precursor peptide by a unique pathway involving uncharted ATP-grasp type ligases as well as an N-acetyltransferase and a specialised transporter peptidase. The successful expression of microviridin B in E. coli provides a promising base for engineering novel variants. Screening of Microcystis laboratory strains and field samples revealed a wide-spread occurrence and a great natural variety for both peptide classes, raising the question of the ecological role of such small cyclic peptides. Attempting to obtain some first hints to answer that question, transcription and expression studies of biosynthetic genes were performed. Finally, this work showed that such scanning approaches could lead to the discovery of novel peptide variants and demonstrated new examples of succesful genome mining.

Cyanobakterien

Naturstoffe

Biosynthese

Microviridin

Microcyclamid

Cyanobacteria

natural products

biosynthesis

microviridin

microcyclamid

570 Biowissenschaften, Biologie

32 Biologie

WG 1890

ddc:570

Characterization and manipulation of the biosynthetic pathway of cyanobacterial tricyclic microviridins in E. coli

Weiz, Annika R

26 April 2012

Microviridine sind ribosomal synthetisierte, cyanobakterielle Depsipeptide. Die genetische Basis der Microviridinproduktion ist ein Gencluster mit den Genen mdnABCDE. Zwei neuartige ATP-grasp-Ligasen, MdnB und MdnC, katalysieren die Bildung von Lacton- und Lactamringen durch die Einführung von zwei -Ester-und einer -Amidbindung. Die Prozessierung wird von einer bislang unbekannten Peptidase durchgeführt. Neben den filamentösen Nostoc und Planktothrix gehört die einzellige, blütenbildende Cyanobakteriengattung Microcystis zu den Microviridinproduzenten. Die inhibitorische Aktivität gegenüber Serinproteasen verleiht Microviridinen ökologische und pharmazeutische Relevanz. Im Rahmen dieser Arbeit wurde eine kleine Microviridin Expressionsplattform konstruiert. Ein neuartiges Microviridin Gencluster aus Microcystis aeruginosa Nies843 wurde heterolog in E. coli exprimiert, bioinformatisch analysiert und mutiert. Das hochkonservierte PFFARFL-Motif im Precursorpeptid MdnA wurde als Erkennungssequenz für die ATP-grasp Ligasen identifiziert. Manipulationen am C-Terminus des leader-Peptids führten zu einer Inhibierung der Aktivität von MdnB. Peptid-Protein-Interaktionen zwischen MdnA und den ATP-grasp Ligasen wurden untersucht. Der ABC-Transporter MdnE stabilisiert höchstwahrscheinlich einen Microviridin Biosynthesekomplex an der inneren Membran, wofür zwei mögliche Modelle vorgeschlagen werden. Punktmutationen in der Microviridin core-Sequenz offenbarten Flexibilität des Microviridin-Biosyntheseapparates für das peptide engineering. Es wurde eine Mutante konstruiert, deren inhibitorische Aktivität gegen Elastase um den Faktor 100 verbessert wurde. Durch die Konstruktion einer Precursoraustauschplattform konnten bisher kryptische Microviridine produziert werden. Diese Methode hat Potential für den Bau von Microviridinbibliotheken. Letztlich wird eine Hypothese zum Bindungsmechanismus von Microviridinen an Proteasen aufgestellt. / Microviridins are ribosomally synthesized cyanobacterial oligopeptides. These peptides comprise an unrivaled multicyclic cage-like structure, carrying two characteristic  ester and one amide bond, which are introduced by the two novel ATP-grasp ligases MdnB and MdnC. In addition to the filamentous species Nostoc and Planktothrix, the unicellular, bloom-forming cyanobacterium Microcystis aeruginosa Nies843 is one of the microviridin producer strains. The potent serine protease inhibitory activity contributes to both ecological and pharmacological relevance of microviridins. During this work, a small expression platform carrying the microviridin gene cassette mdnABCDE was established. Microviridins were heterologously expressed in E. coli and analyzed using bioinformatics and mutational analysis. The strictly conserved PFFARFL motif in the precursor peptide MdnA was identified and characterized as a binding sequence for the ATP-grasp ligases. Protein interactions of MdnA with B and C were studied. The ABC transporter MdnE was unveiled to be crucial for cyclization and processing of microviridins, probably stabilizing a putative microviridin maturation complex at the inner membrane. Two initial models for the peptide recognition and processing have been proposed. Point mutations in the microviridin core sequence showed some flexibility of the microviridin biosynthetic pathway to be used for peptide engineering. The exchange of a phenylalanine against a leucine in position 5 of the core region resulted in more than a 100-fold increased inhibitory activity against the attractive drug target elastase. The possibility to express cryptic microviridin precursor peptides in a precursor exchange platform showed the potential to create peptide libraries. Finally, a hypothesis about the binding mechanism of microviridins is presented.

Cyanobakterien

Mutagenese

Microviridin

Microcystis

Ribosomales Peptid

leader-Peptid

mutagenesis

microviridin

Cyanobacteria

Microcystis

ribosomal peptide

leader peptide

570 Biowissenschaften, Biologie

32 Biologie

WD 5250

WL 2110

ddc:570

Análise genômica e funcional da cianobactéria Nostoc sp. CENA67 e caracterização da sua comunidade microbiana associada / Genomic and funcional analysis of the cyanobacterium Nostoc sp. CENA67 and characterization of its associated microbial community

Alvarenga, Danillo Oliveira de

29 October 2015

Nostoc é um gênero cianobacteriano com distribuição ubíqua que tem importância em diversos ecossistemas. Contudo, poucos genomas estão atualmente disponíveis para esse gênero. Enquanto Nostoc spp. são as cianobactérias mais comumente relatadas em relações simbióticas com fungos, animais, plantas e outros organismos, associações com outros micro organismos não receberam atenção similar. Como consequência das fortes interações entre cianobactérias e heterótrofos, culturas não axênicas são geralmente obtidas no isolamento dessas bactérias, o que proporciona uma oportunidade interessante para o desenvolvimento tanto de estudos genômicos quanto metagenômicos. Este trabalho teve como objetivo investigar as características genômicas e funcionais da linhagem Nostoc sp. CENA67, isolada de terra preta antropogênica, bem como estudar sua comunidade associada. Para esse fim, células de uma cultura não axênica de Nostoc sp. CENA67 foram sequenciadas com as plataformas MiSeq e Ion PGM e analisados com ferramentas genômicas e metagenômicas. A linhagem CENA67 de fato pertence à família Nostocaceae e possui algumas características em comum com cianobactérias do gênero Nostoc, porém diverge em certos aspectos morfológicos e filogenéticos do grupo típico de Nostoc, sugerindo que seja representante de um novo táxon. Além disso, seu genoma apresenta diferenças em relação aos genomas atualmente disponíveis para cianobactérias relacionadas ao gênero. A mineração desse genoma revelou 31 agrupamentos gênicos hipoteticamente relacionados à síntese de metabólitos secundários, a maioria dos quais não mostrou similaridade significativa com agrupamentos conhecidos. A análise de um agrupamento gênico de microviridina desvendou uma maior diversidade de genes para precursores dessa molécula do que se acreditava anteriormente, sugerindo que um número considerável de variantes ainda está a ser descoberta. A análise taxonômica da comunidade associada confirmou a dominância de cianobactérias na cultura, mas também revelou a presença de grande número de gêneros microbianos que normalmente são capazes de fixar nitrogênio atmosférico e estabelecer simbiose com plantas, incluindo Mesorhizobium, Sinorhizobium e Starkeya, entre outros. Rascunhos genômicos foram obtidos para Bradyrhizobium diazoefficiens, Bradyrhizobium japonicum, Burkholderia lata e Hyphomicrobium nitrativorans. Todavia, genes para fixação de nitrogênio não foram detectados nesses genomas, apesar de serem encontrados no genoma da cianobactéria e no metagenoma da comunidade, o que sugere que algumas populações podem estar sob pressão de seleção para a perda da capacidade de fixação de nitrogênio, provavelmente devido a este nutriente estar sendo fornecido pelo organismo mais abundante nesta comunidade, a cianobactéria. A análise funcional indicou vias exclusivas tanto à cianobactéria quanto à comunidade associada, e sugeriu a complementariedade de certos metabolismos. Os resultados possibilitam o aumento do conhecimento sobre a diversidade molecular e química do filo Cyanobacteria e levantam possíveis interações com micro organismos simbiontes / Nostoc is a cyanobacterial genus with ubiquitous distribution that is important in several ecosystems. However, few genomes are currently available for this genus. While Nostoc spp. are the most commonly reported cyanobacteria in symbiotic relationship with fungi, animals, plants, and other organisms, associations with other microorganisms have not received similar attention. As a consequence of tight interactions between cyanobacteria and heterotrophs, non-axenic cultures are usually achieved in the isolation of these bacteria, which provides an interesting opportunity for carrying out both genomic as metagenomic studies. This work aimed to investigate the genomic and functional characteristics of the strain Nostoc sp. CENA67, isolated from anthropogenic dark earth, and to study its associated community. For this purpose, cells from a non-axenic culture of Nostoc sp. CENA67 were sequenced with the platforms MiSeq and Ion PGM and analyzed with genomic and metagenomic tools. The strain CENA67 indeed belongs to the family Nostocaceae and presents some characteristics in common with cyanobacteria of the genus Nostoc, but diverges in certain morphological and phylogenetic aspects of the typical Nostoc group, suggesting that it is a representative of a new taxon. In addition, its genome presents differences in relation to the genomes currently available for cyanobacteria related to this genus. Genome mining revealed 31 gene clusters hypothetically related to the synthesis of secondary metabolites, most of which did not show significant similarity to known clusters. The analysis of a microviridin gene cluster unveiled a larger diversity of precursor genes for this molecule than was previously believed, suggesting that a considerable number of variants is still to be found. The taxonomic analysis of the associated community confirmed the dominance of cyanobacteria in the culture, but also revealed the presence of a great number of microbial genera that are usually capable of fixing atmospheric nitrogen and establishing symbiosis with plants, including Mesorhizobium, Sinorhizobium, and Starkeya, among others. Genomic drafts were obtained for Bradyrhizobium diazoefficiens, Bradyrhizobium japonicum, Burkholderia lata, and Hyphomicrobium nitrativorans. Nevertheless, genes for nitrogen fixation were not detected in these genomes, despite being found in the cyanobacterial genome and the community metagenome, suggesting that some populations might be under selection pressure for the loss of the ability to fix nitrogen, probably due to this nutrient being provided for the most abundant organism in this culture, the cyanobacterium. Functional analysis indicated pathways exclusive both to the cyanobacterium as to the associated community, and suggested the complementarity of certain metabolisms. The results allow the increase of the knowledge about the molecular and chemical diversity of the phylum Cyanobacteria and raise possible interactions with symbiotic microorganisms

Consórcios microbianos

Interações microbianas

Metabolismo secundário

Microbial consortia

Microbial interactions

Microbiologia do solo

Microviridin

Microviridina

Secondary metabolism

Soil microbiology

Análise genômica e funcional da cianobactéria Nostoc sp. CENA67 e caracterização da sua comunidade microbiana associada / Genomic and funcional analysis of the cyanobacterium Nostoc sp. CENA67 and characterization of its associated microbial community

Danillo Oliveira de Alvarenga

29 October 2015

Nostoc é um gênero cianobacteriano com distribuição ubíqua que tem importância em diversos ecossistemas. Contudo, poucos genomas estão atualmente disponíveis para esse gênero. Enquanto Nostoc spp. são as cianobactérias mais comumente relatadas em relações simbióticas com fungos, animais, plantas e outros organismos, associações com outros micro organismos não receberam atenção similar. Como consequência das fortes interações entre cianobactérias e heterótrofos, culturas não axênicas são geralmente obtidas no isolamento dessas bactérias, o que proporciona uma oportunidade interessante para o desenvolvimento tanto de estudos genômicos quanto metagenômicos. Este trabalho teve como objetivo investigar as características genômicas e funcionais da linhagem Nostoc sp. CENA67, isolada de terra preta antropogênica, bem como estudar sua comunidade associada. Para esse fim, células de uma cultura não axênica de Nostoc sp. CENA67 foram sequenciadas com as plataformas MiSeq e Ion PGM e analisados com ferramentas genômicas e metagenômicas. A linhagem CENA67 de fato pertence à família Nostocaceae e possui algumas características em comum com cianobactérias do gênero Nostoc, porém diverge em certos aspectos morfológicos e filogenéticos do grupo típico de Nostoc, sugerindo que seja representante de um novo táxon. Além disso, seu genoma apresenta diferenças em relação aos genomas atualmente disponíveis para cianobactérias relacionadas ao gênero. A mineração desse genoma revelou 31 agrupamentos gênicos hipoteticamente relacionados à síntese de metabólitos secundários, a maioria dos quais não mostrou similaridade significativa com agrupamentos conhecidos. A análise de um agrupamento gênico de microviridina desvendou uma maior diversidade de genes para precursores dessa molécula do que se acreditava anteriormente, sugerindo que um número considerável de variantes ainda está a ser descoberta. A análise taxonômica da comunidade associada confirmou a dominância de cianobactérias na cultura, mas também revelou a presença de grande número de gêneros microbianos que normalmente são capazes de fixar nitrogênio atmosférico e estabelecer simbiose com plantas, incluindo Mesorhizobium, Sinorhizobium e Starkeya, entre outros. Rascunhos genômicos foram obtidos para Bradyrhizobium diazoefficiens, Bradyrhizobium japonicum, Burkholderia lata e Hyphomicrobium nitrativorans. Todavia, genes para fixação de nitrogênio não foram detectados nesses genomas, apesar de serem encontrados no genoma da cianobactéria e no metagenoma da comunidade, o que sugere que algumas populações podem estar sob pressão de seleção para a perda da capacidade de fixação de nitrogênio, provavelmente devido a este nutriente estar sendo fornecido pelo organismo mais abundante nesta comunidade, a cianobactéria. A análise funcional indicou vias exclusivas tanto à cianobactéria quanto à comunidade associada, e sugeriu a complementariedade de certos metabolismos. Os resultados possibilitam o aumento do conhecimento sobre a diversidade molecular e química do filo Cyanobacteria e levantam possíveis interações com micro organismos simbiontes / Nostoc is a cyanobacterial genus with ubiquitous distribution that is important in several ecosystems. However, few genomes are currently available for this genus. While Nostoc spp. are the most commonly reported cyanobacteria in symbiotic relationship with fungi, animals, plants, and other organisms, associations with other microorganisms have not received similar attention. As a consequence of tight interactions between cyanobacteria and heterotrophs, non-axenic cultures are usually achieved in the isolation of these bacteria, which provides an interesting opportunity for carrying out both genomic as metagenomic studies. This work aimed to investigate the genomic and functional characteristics of the strain Nostoc sp. CENA67, isolated from anthropogenic dark earth, and to study its associated community. For this purpose, cells from a non-axenic culture of Nostoc sp. CENA67 were sequenced with the platforms MiSeq and Ion PGM and analyzed with genomic and metagenomic tools. The strain CENA67 indeed belongs to the family Nostocaceae and presents some characteristics in common with cyanobacteria of the genus Nostoc, but diverges in certain morphological and phylogenetic aspects of the typical Nostoc group, suggesting that it is a representative of a new taxon. In addition, its genome presents differences in relation to the genomes currently available for cyanobacteria related to this genus. Genome mining revealed 31 gene clusters hypothetically related to the synthesis of secondary metabolites, most of which did not show significant similarity to known clusters. The analysis of a microviridin gene cluster unveiled a larger diversity of precursor genes for this molecule than was previously believed, suggesting that a considerable number of variants is still to be found. The taxonomic analysis of the associated community confirmed the dominance of cyanobacteria in the culture, but also revealed the presence of a great number of microbial genera that are usually capable of fixing atmospheric nitrogen and establishing symbiosis with plants, including Mesorhizobium, Sinorhizobium, and Starkeya, among others. Genomic drafts were obtained for Bradyrhizobium diazoefficiens, Bradyrhizobium japonicum, Burkholderia lata, and Hyphomicrobium nitrativorans. Nevertheless, genes for nitrogen fixation were not detected in these genomes, despite being found in the cyanobacterial genome and the community metagenome, suggesting that some populations might be under selection pressure for the loss of the ability to fix nitrogen, probably due to this nutrient being provided for the most abundant organism in this culture, the cyanobacterium. Functional analysis indicated pathways exclusive both to the cyanobacterium as to the associated community, and suggested the complementarity of certain metabolisms. The results allow the increase of the knowledge about the molecular and chemical diversity of the phylum Cyanobacteria and raise possible interactions with symbiotic microorganisms

Consórcios microbianos

Interações microbianas

Metabolismo secundário

Microbiologia do solo

Microviridina

Microbial consortia

Microbial interactions

Microviridin

Secondary metabolism

Soil microbiology

Filosfera da Mata Atlântica: isolamento e sistemática de cianobactérias, bioprospecção e caracterização da comunidade diazotrófica / Phyllosphere of the Atlantic Forest: isolation and systematic of Cyanobacteria, bioprospection and diazotrophic community characterization

Andreote, Ana Paula Dini

30 January 2014

A filosfera da Mata Atlântica é um importante nicho de colonização por micro-organismos, cuja comunidade ainda é pouco conhecida. Algumas bactérias associadas à superfície das folhas possuem habilidade de fixar nitrogênio, mineralizar substratos orgânicos e também suprir as árvores com dióxido de carbono e fatores de crescimento. Este trabalho teve como objetivo gerar informações sobre a comunidade cianobacteriana que coloniza a filosfera de algumas plantas da Mata Atlântica e investigar a comunidade diazotrófica presente nesse habitat. Um total de 40 linhagens de cianobactérias da filosfera de Merostachys neesii (bambu), Euterpe edulis (palmeira Juçara), Guapira opposita e Garcinia gardneriana foram isoladas e cultivadas. Os isolados foram caracterizados por análises morfológicas e filogenia do gene 16S RNAr. Essa abordagem permitiu a identificação de uma linhagem do gênero Nostoc, sete Desmonostoc, seis Leptolyngbya, uma Oculatella, cinco Brasilonema, uma Pleurocapsa e duas Chroococcidiopsis. Dezessete linhagens (uma Microchaetaceae, dez Nostocaceae e seis Pseudanabaenaceae) não puderam ser identificadas ao nível de gênero. Vinte e seis linhagens (24 pertencentes às ordens Nostocales e duas à Pseudanabaenales) foram caracterizadas como diazotróficas pela amplificação, sequenciamento e filogenia do gene nifH. Além disso, caracterizou-se o perfil de fixação biológica de nitrogênio da linhagem Desmonostoc sp. CENA362. Com relação ao potencial biotecnológico dessas linhagens, treze isolados foram identificados como potenciais produtores de ácido indol acético (IAA) de acordo com o teste Salkowski. Diversas linhagens apresentaram genes associados à via biossintética do inibidor de protease microviridina, sendo que três delas codificam para novas variantes. Além disso, dez linhagens foram identificadas como potenciais produtoras aeruginosina, três de cianopeptolina e três de microcistina. A comunidade bacteriana diazotrófica avaliada por pirosequenciamento do gene nifH apresentou um perfil de variação espécie-específica para Proteobacteria e uma correlação positiva entre a riqueza e a fixação biológica de nitrogênio. Neste estudo, cianobactérias que habitam a filosfera da Mata Atlântica foram isoladas estão sendo mantidas em condições de cultivo. Novos táxons foram descobertos e vários gêneros conhecidos foram descritos pela primeira vez neste hábitat, o que contribuiu para o aprimoramento da sistemática de Cyanobacteria. As linhagens em cultivo e as informações geradas sobre os seus compostos metabólitos representam uma valiosa fonte para estudos posteriores. Além disso, informações sobre a comunidade bacteriana diazotrófica da filosfera pode auxiliar no entendimento da dinâmica do nitrogênio, elemento limitante e pouco disponível na Mata Atlântica / The phyllosphere of the Atlantic Forest is an important niche for colonization by microorganisms, whose community is still little known. Some bacteria associated with leaf surfaces may possess the ability to fix nitrogen, mineralize the organic substrates and also supply the trees with carbon dioxide and growth factors. Therefore, this study aimed to generate information about cyanobacterial community that colonize the phyllosphere of some plants of the Atlantic Forest and investigated the diazotrophic community in this habitat. A total of 40 strains of Cyanobacteria from the phyllosphere of Merostachys neesii (bamboo), Euterpe edulis (Juçara palm), Garcinia gardneriana and Guapira opposita was isolated and cultivated. The isolates were characterized by morphological analyses and phylogeny of the 16S rRNA gene. This approach allowed the identification of one strain of the genus Nostoc, seven Desmonostoc, six Leptolyngbya, one Oculatella, five Brasilonema, one Pleurocapsa and two Chroococcidiopsis. Seventeen strains (one Microchaetaceae, ten Nostocaceae and six Pseudanabaenaceae) could not be identified at the genus level. Twenty-six strains (24 belonging to Nostocales and two belonging to Pseudanabaenales) were characterized as diazotrophic by amplification, sequencing and phylogeny of nifH gene. Also, it was characterized the profile of biological nitrogen fixation for the strain Desmonostoc sp. CENA362. Regarding the biotechnological potential of these strains, thirteen strains were identified as potential producers of indole acetic acid (IAA) according to Salkowski test. Several strains presented genes involved in the biosynthetic pathway of the protease inhibitor microviridin, three of them encoding putative novel variants. Moreover, ten strains were identified as potential producers of aeruginosin, three of cyanopeptolin and three of microcystin. The diazotrophic bacterial community evaluated by pyrosequencing of the nifH gene showed a profile of variation plant species-specific for Proteobacteria, and a positive correlation between richness and biological nitrogen fixation. In this study, cyanobacteria that inhabiting Brazilian Atlantic Forest phyllosphere were isolated and are been maintained in culture conditions. New taxa were discovered and several known genera were described for the first time in this habitat, which contributed to improvement of the cyanobacterial systematic. The culturable strains and the information generated about their metabolites compounds represent a valuable source for further studies. In addition, information about the diazotrophic bacterial community inhabiting the phyllosphere may help in understanding the dynamics of nitrogen, a limiting and low available element in Atlantic Forest

Aeruginosin

Aeruginosina

Análise polifásica

Biological nitrogen fixation

Cianopeptolina

Cyanopeptolin

Epifíticos

Epiphytic

Filogenia

Fixação biológica do nitrogênio

Microcistina

Microcystin

Microviridin

Microviridina

Phylogeny

Polyphasic approach

Taxonomia

Taxonomy

Filosfera da Mata Atlântica: isolamento e sistemática de cianobactérias, bioprospecção e caracterização da comunidade diazotrófica / Phyllosphere of the Atlantic Forest: isolation and systematic of Cyanobacteria, bioprospection and diazotrophic community characterization

Ana Paula Dini Andreote

30 January 2014

A filosfera da Mata Atlântica é um importante nicho de colonização por micro-organismos, cuja comunidade ainda é pouco conhecida. Algumas bactérias associadas à superfície das folhas possuem habilidade de fixar nitrogênio, mineralizar substratos orgânicos e também suprir as árvores com dióxido de carbono e fatores de crescimento. Este trabalho teve como objetivo gerar informações sobre a comunidade cianobacteriana que coloniza a filosfera de algumas plantas da Mata Atlântica e investigar a comunidade diazotrófica presente nesse habitat. Um total de 40 linhagens de cianobactérias da filosfera de Merostachys neesii (bambu), Euterpe edulis (palmeira Juçara), Guapira opposita e Garcinia gardneriana foram isoladas e cultivadas. Os isolados foram caracterizados por análises morfológicas e filogenia do gene 16S RNAr. Essa abordagem permitiu a identificação de uma linhagem do gênero Nostoc, sete Desmonostoc, seis Leptolyngbya, uma Oculatella, cinco Brasilonema, uma Pleurocapsa e duas Chroococcidiopsis. Dezessete linhagens (uma Microchaetaceae, dez Nostocaceae e seis Pseudanabaenaceae) não puderam ser identificadas ao nível de gênero. Vinte e seis linhagens (24 pertencentes às ordens Nostocales e duas à Pseudanabaenales) foram caracterizadas como diazotróficas pela amplificação, sequenciamento e filogenia do gene nifH. Além disso, caracterizou-se o perfil de fixação biológica de nitrogênio da linhagem Desmonostoc sp. CENA362. Com relação ao potencial biotecnológico dessas linhagens, treze isolados foram identificados como potenciais produtores de ácido indol acético (IAA) de acordo com o teste Salkowski. Diversas linhagens apresentaram genes associados à via biossintética do inibidor de protease microviridina, sendo que três delas codificam para novas variantes. Além disso, dez linhagens foram identificadas como potenciais produtoras aeruginosina, três de cianopeptolina e três de microcistina. A comunidade bacteriana diazotrófica avaliada por pirosequenciamento do gene nifH apresentou um perfil de variação espécie-específica para Proteobacteria e uma correlação positiva entre a riqueza e a fixação biológica de nitrogênio. Neste estudo, cianobactérias que habitam a filosfera da Mata Atlântica foram isoladas estão sendo mantidas em condições de cultivo. Novos táxons foram descobertos e vários gêneros conhecidos foram descritos pela primeira vez neste hábitat, o que contribuiu para o aprimoramento da sistemática de Cyanobacteria. As linhagens em cultivo e as informações geradas sobre os seus compostos metabólitos representam uma valiosa fonte para estudos posteriores. Além disso, informações sobre a comunidade bacteriana diazotrófica da filosfera pode auxiliar no entendimento da dinâmica do nitrogênio, elemento limitante e pouco disponível na Mata Atlântica / The phyllosphere of the Atlantic Forest is an important niche for colonization by microorganisms, whose community is still little known. Some bacteria associated with leaf surfaces may possess the ability to fix nitrogen, mineralize the organic substrates and also supply the trees with carbon dioxide and growth factors. Therefore, this study aimed to generate information about cyanobacterial community that colonize the phyllosphere of some plants of the Atlantic Forest and investigated the diazotrophic community in this habitat. A total of 40 strains of Cyanobacteria from the phyllosphere of Merostachys neesii (bamboo), Euterpe edulis (Juçara palm), Garcinia gardneriana and Guapira opposita was isolated and cultivated. The isolates were characterized by morphological analyses and phylogeny of the 16S rRNA gene. This approach allowed the identification of one strain of the genus Nostoc, seven Desmonostoc, six Leptolyngbya, one Oculatella, five Brasilonema, one Pleurocapsa and two Chroococcidiopsis. Seventeen strains (one Microchaetaceae, ten Nostocaceae and six Pseudanabaenaceae) could not be identified at the genus level. Twenty-six strains (24 belonging to Nostocales and two belonging to Pseudanabaenales) were characterized as diazotrophic by amplification, sequencing and phylogeny of nifH gene. Also, it was characterized the profile of biological nitrogen fixation for the strain Desmonostoc sp. CENA362. Regarding the biotechnological potential of these strains, thirteen strains were identified as potential producers of indole acetic acid (IAA) according to Salkowski test. Several strains presented genes involved in the biosynthetic pathway of the protease inhibitor microviridin, three of them encoding putative novel variants. Moreover, ten strains were identified as potential producers of aeruginosin, three of cyanopeptolin and three of microcystin. The diazotrophic bacterial community evaluated by pyrosequencing of the nifH gene showed a profile of variation plant species-specific for Proteobacteria, and a positive correlation between richness and biological nitrogen fixation. In this study, cyanobacteria that inhabiting Brazilian Atlantic Forest phyllosphere were isolated and are been maintained in culture conditions. New taxa were discovered and several known genera were described for the first time in this habitat, which contributed to improvement of the cyanobacterial systematic. The culturable strains and the information generated about their metabolites compounds represent a valuable source for further studies. In addition, information about the diazotrophic bacterial community inhabiting the phyllosphere may help in understanding the dynamics of nitrogen, a limiting and low available element in Atlantic Forest

Aeruginosina

Análise polifásica

Cianopeptolina

Epifíticos

Filogenia

Fixação biológica do nitrogênio

Microcistina

Microviridina

Taxonomia

Aeruginosin

Biological nitrogen fixation

Cyanopeptolin

Epiphytic

Microcystin

Microviridin

Phylogeny

Polyphasic approach

Taxonomy