Diversidade genética de bactérias endofíticas associadas a frutos de café (Coffea arabica L.)
Data
2008-08-22
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Editor
Universidade Federal de Viçosa
Resumo
A complexidade da microbiota epifítica e endofítica presente em frutos de café e o limitado conhecimento dos microrganismos, especialmente dos não- cultiváveis, dificultam a caracterização da microbiodiversidade e da possível atividade e contribuição dela para a formação de precursores de compostos que definem a qualidade superior da bebida do café. O presente estudo teve como objetivo avaliar a diversidade bacteriana endofítica associada aos frutos de café (Coffea arabica L.) coletados em fazenda localizada na Zona da Mata Norte de Minas Gerais, Brasil. Fragmentos de rDNAs 16S foram diretamente amplificados por Reação em Cadeia da Polimerase (PCR) a partir de primers específicos para os filos Actinobacteria, Firmicutes e Proteobacteria pertencentes às classes α, β e γ, utilizando, como molde, DNA metagenômico extraído de frutos de café. Os amplicons foram submetidos à Eletroforese em Gel com Gradiente Desnaturante (DGGE) e utilizados para construção de bibliotecas de clones de rDNAs 16S. A PCR-DGGE mostrou variado perfil de diversidade genética na amostra de DNA, com a presença de pelo menos 38 Unidades Taxonômicas Operacionais (UTOs). Os produtos de PCR purificados e seqüenciados mostraram que a comunidade de bactérias endofíticas é composta, entre outros, por representantes relacionados filogeneticamente aos filos Firmicutes e Proteobacteria pertencentes às classes β e γ, dentre os quais se destacam microrganismos cultiváveis e não-cultiváveis. A presença de bactérias endofíticas pertencentes ao gênero Burkholderia e à espécie Klebsiela oxytoca é sugerida com base nas análises filogenéticas realizadas a partir do seqüenciamento de DNA obtido de bandas purificadas do gel de DGGE. Um total de 50 clones positivos da biblioteca de rDNAs 16S de γ-Proteobacteria endofíticas e 25 clones positivos da biblioteca de rDNAs 16S de Firmicutes endofíticos foram parcialmente seqüenciados e identificados. O resultado da análise das seqüências mostrou 3 gêneros de Firmicutes na biblioteca de rDNAs 16S, sendo que 60% mostraram alta identidade com Bacillus, 8% com Staphylococcus e 4% com Paenibacillus. Análises de rarefação e de cobertura mostraram que a biblioteca foi representativa e suficiente para refletir a diversidade de Firmicutes endofíticos de frutos de café e que a seqüência única detectada na amostra aproxima-se do número total de seqüências únicas dentro desta biblioteca. As populações de bactérias endofíticas presentes em frutos de café são diversas e compreendem diferentes filos. Neste estudo foi construída, pela primeira vez, uma biblioteca de clones de rDNAs 16S para acessar a diversidade de bactérias endofíticas, cultiváveis e não-cultiváveis, em frutos de café. O papel funcional dessas bactérias nos frutos de café, assim como a diversidade genética e funcional de outros grupos de microrganismos, continua sendo investigado. O conhecimento dessa diversidade é de fundamental importância para se determinar a participação destes microrganismos na produção e interconversão de metabólitos precursores daqueles que estão associados à qualidade superior da bebida do café. Adicionalmente, esses estudos podem auxiliar no entendimento dos princípios fisiológicos e genéticos envolvidos nas complexas interações microrganismo- hospedeiro e microrganismo-microrganismo.
The complexity and limited knowledge of the epiphytic and endophytic microbiota in coffee cherries, especially the unculturable ones, make it a challenging task the characterization of this microbiodiversity and its possible role as producers of precursors to compounds inherent to higher quality coffees. The present study was conducted to evaluate the diversity of endophytic bacteria in coffee cherries (Coffea arabica L.) from plantations located in North Zona da Mata, Minas Gerais, Brazil. Fragments of 16S rDNA were PCR-amplified using specific primers for the phyla Actinobacteria, Firmicutes, and Proteobacteria classes α, β and γ, using as template metagenomic DNA extracted from coffee cherries. Amplicons were evaluated by Denaturing Gradient Gel Electrophoresis (DGGE) fingerprinting and also used to create a library of 16S rDNA clones. PCR-DGGE showed a variable genetic diversity profile in the DNA sample and revealed at least 38 Operational Taxonomic Units (OTU). PCR products sequenced showed that the endophytic bacterial community is composed, in addition to others, by representatives phylogenetically affiliated to the phyla Firmicutes and Proteobacteria, classes β and γ, for both cultivated and uncultivated microorganisms. The presence of endophytic bacteria belonging to Burkholderia and Klebsiela oxytoca is suggested based on the phylogenetic analyses of sequenced DNA fragments purified from the bands of the DGGE gels. A total of 50 clones of endophytic γ-Proteobacteria and 25 clones of endophytic Firmicutes from the 16S rDNA library were partially sequenced and identified. The result of sequence analyses showed three genera of Firmicutes among which 60% showed high identity with Bacillus, 8% with Staphylococcus, and 4% with Paenibacillus. Rarefaction and coverage analyses showed that the number of clones screened from the bacterial clone library was sufficient to reflect the diversity of endophytic Firmicutes in coffee cherries and that the number of unique sequence types sampled from this library approached the total number of unique sequences within the library. The populations of endophytic bacteria in coffee cherries are diverse and cover different phyla. In this study, for the first time, a library of 16S rDNA clones was constructed to access the diversity of endophytic bacteria in coffee cherries, both of culturable and unculturable microorganisms. The functional role of these bacteria in coffee cherries, as well as the genetic and functional diversity of other groups of microorganisms, is under investigation. The knowledge on this diversity is essential to determine the role of endophytic microorganisms in the production and interchange of precursors metabolites associated with the highest quality of the coffee beverage. Additionally, these studies will help the understanding of the physiological and genetic principles involved in the complex host-microorganism and microorganism-microorganism interactions.
The complexity and limited knowledge of the epiphytic and endophytic microbiota in coffee cherries, especially the unculturable ones, make it a challenging task the characterization of this microbiodiversity and its possible role as producers of precursors to compounds inherent to higher quality coffees. The present study was conducted to evaluate the diversity of endophytic bacteria in coffee cherries (Coffea arabica L.) from plantations located in North Zona da Mata, Minas Gerais, Brazil. Fragments of 16S rDNA were PCR-amplified using specific primers for the phyla Actinobacteria, Firmicutes, and Proteobacteria classes α, β and γ, using as template metagenomic DNA extracted from coffee cherries. Amplicons were evaluated by Denaturing Gradient Gel Electrophoresis (DGGE) fingerprinting and also used to create a library of 16S rDNA clones. PCR-DGGE showed a variable genetic diversity profile in the DNA sample and revealed at least 38 Operational Taxonomic Units (OTU). PCR products sequenced showed that the endophytic bacterial community is composed, in addition to others, by representatives phylogenetically affiliated to the phyla Firmicutes and Proteobacteria, classes β and γ, for both cultivated and uncultivated microorganisms. The presence of endophytic bacteria belonging to Burkholderia and Klebsiela oxytoca is suggested based on the phylogenetic analyses of sequenced DNA fragments purified from the bands of the DGGE gels. A total of 50 clones of endophytic γ-Proteobacteria and 25 clones of endophytic Firmicutes from the 16S rDNA library were partially sequenced and identified. The result of sequence analyses showed three genera of Firmicutes among which 60% showed high identity with Bacillus, 8% with Staphylococcus, and 4% with Paenibacillus. Rarefaction and coverage analyses showed that the number of clones screened from the bacterial clone library was sufficient to reflect the diversity of endophytic Firmicutes in coffee cherries and that the number of unique sequence types sampled from this library approached the total number of unique sequences within the library. The populations of endophytic bacteria in coffee cherries are diverse and cover different phyla. In this study, for the first time, a library of 16S rDNA clones was constructed to access the diversity of endophytic bacteria in coffee cherries, both of culturable and unculturable microorganisms. The functional role of these bacteria in coffee cherries, as well as the genetic and functional diversity of other groups of microorganisms, is under investigation. The knowledge on this diversity is essential to determine the role of endophytic microorganisms in the production and interchange of precursors metabolites associated with the highest quality of the coffee beverage. Additionally, these studies will help the understanding of the physiological and genetic principles involved in the complex host-microorganism and microorganism-microorganism interactions.
Descrição
Dissertação de mestrado defendida na Universidade Federal de Viçosa.
Palavras-chave
Endofítico, Reação em cadeia de polimerase, Eletroforese de gel com gradiente desnaturante, DNA ribossômico 16S - bancos genômicos, Firmicutes, Filogenia
Citação
SANTOS, T. M. A. Diversidade genética de bactérias endofíticas associadas a frutos de café (Coffea arabica L.). 2008. 112 f. Dissertação (Mestrado em Microbiologia Agrícola) - Universidade Federal de Viçosa, Viçosa-MG. 2008.