Diversidade de microrganismos no trato intestinal e res?duos digestivos de Trigoniulus Corallinus (GERVAIS) (DIPLOPODA, SPIROBOLIDA, PACHYBOLIDAE). / Diversity of microorganisms in the gut and food waste of Trigoniulus corallinus (GERVAIS) (DIPLOPODA, SPIROBOLIDA, PACHYBOLIDAE).

Passos, Samuel Ribeiro

23 February 2010

Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2017-06-05T14:54:01Z No. of bitstreams: 1 2010 - Samuel_Ribeiro_Passos.pdf: 16768295 bytes, checksum: 38c2614ad26085e9a101652551af84b5 (MD5) / Made available in DSpace on 2017-06-05T14:54:01Z (GMT). No. of bitstreams: 1 2010 - Samuel_Ribeiro_Passos.pdf: 16768295 bytes, checksum: 38c2614ad26085e9a101652551af84b5 (MD5) Previous issue date: 2010-02-23 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior, CAPES, Brasil. / The increasing demand for biological processes alternative, environmentally friendly and efficient in converting lignocellulosic material, expanding their application potential for agribusiness, motivates researches worldwide. Thus, organisms isolated in nature, in specific ecosystems, become increasingly important because of their physiological and metabolic diversity, which gives them a great potential in the development of biotechnological processes of interest to society. The aim of this study was to assess the microbial community associated with the intestinal tract of millipede Trigoniulus corallinus and bioprospecting for microorganisms with cellulolytic capacity. The millipedes were collected and incubated with litter in diets of grass (Paspalum notatum) and ?sabia? (Mimosa caesalpinifolia). Sampling occurred at 15, 30, 45, and 75 days of incubation. The intestinal tract of five individuals was removed, sectioned the posterior third, processed and stored in ultrasound. DNA from microbes associated with the intestinal tract, litter and coprolite was extracted, and DGGE analysis using 16S rDNA, DGGE group actinomycetes, and it was evaluated the presence of nifH genes. The 16s gene analysis by DGGE revealed a microbial diversity conditioned by the diet offered to 45 days. After this period, this effect was no longer visible. The community associated with coprolites and the type of litter was distributed in separate clusters of samples from the intestinal tract. This effect was not observed in the community assessment of actinomycetes, where the big difference for division of groups was the diet. The animals fed on grass litter showed a diverse community, and they were not influenced by time or compartmentalization. The samples associated with litter and coprolites were 80% similar to samples from the intestinal tract. In millipedes fed with material form Mimosa caesalpinifolia, the result was different, the samples of litter and coprolites where 50% similar to the intestinal tract. All samples had nifH genes detected by polymerase chain reaction. Samples collected at 45 days were also inoculated in mineral minimum medium of Busnell-Hass added carboxymethyl-cellulose (CMC) as sole carbon source. Colonies were evaluated for their ability to breakdown cellulose enzyme and 15 had an index greater than 1. The isolate that showed the highest rate (3.65) was subjected to further analysis. The microscope observation suggested that this was not an isolated but a complex of microorganisms acting on the degradation of cellulose. There is evidence of BNF in the intestinal tract of the millipede and microorganisms proliferated in CMC through the proper amplification of nifH genes and proliferation in medium within nitrogen. The community of prokaryotes was influenced by the diet offered to the community up to 45 days, and the actinomycetes community was conditioned by the diet. It was possible to isolate microorganisms and complexes of microorganisms with cellulolytic capacity, with great potential in the search for environmentally friendly technologies in generating agrobioenergy. / A crescente demanda por processos biol?gicos alternativos, ambientalmente favor?veis e eficientes na transforma??o de material ligninocelul?sico, ampliando seu potencial de aplica??o agroindustrial, estimula pesquisas em todo o mundo. Assim, microrganismos isolados na natureza, em ecossistemas espec?ficos, tornam-se cada vez mais importantes pela sua diversidade metab?lica e fisiol?gica, que lhes confere grande potencialidade no desenvolvimento de processos biotecnol?gicos de interesse ? sociedade. O objetivo deste trabalho foi avaliar a comunidade microbiana associada ao trato intestinal do dipl?pode Trigoniulus corallinus e a bioprospec??o de microrganismos com capacidade celulol?tica. Os dipl?podes foram coletados e incubados em dietas com serrapilheira de grama batatais (Paspalum notatum) e sabi? (Mimosa caesalpinifolia). As amostragens aconteceram aos 15, 30, 45 e 75 dias de incuba??o. O trato intestinal de cinco indiv?duos foi removido e seccionado o ter?o posterior tratado em ultrasom e estocado. Procedeu-se a extra??o de DNA da microbiota associada ao trato intestinal, serrapilheira e copr?lito, com an?lise por DGGE utilizando o gene 16S rDNA, DGGE para grupo actinomicetos e avalia??o da presen?a de genes nifH. A an?lise do gene 16s por DGGE revelou diversidade microbiana condicionada pela dieta oferecida at? os 45 dias. Ap?s este per?odo o efeito n?o foi mais vis?vel. A comunidade associada aos copr?litos e ao tipo de serrapilheira distribui-se em grupamentos separados das amostras oriundas do trato intestinal. O mesmo n?o foi observado na avalia??o da comunidade de actinomicetos, onde o grande diferencial para divis?o de grupos foi a dieta. Os animais alimentados com serrapilheira de grama mostraram uma comunidade diversa e n?o influenciada pelo tempo ou compartimentaliza??o. As amostras associadas ? serrapilheira e aos copr?litos foram 80% similares ?s do trato intestinal. Nos dipl?podes alimentados com sabi?, o resultado foi diferente, sendo as amostras de serrapilheira e copr?litos 50% similares ?s do trato intestinal. Todas as amostragens tiveram genes nifH detectados via PCR. Amostras coletadas aos 45 dias foram tamb?m inoculadas em meio mineral m?nimo de Busnell-Hass adicionado de carboxi-metil-celulose (CMC) como ?nica fonte de carbono. Os microrganismos isolados foram avaliados quanto ? capacidade de degrada??o de celulose e 15 apresentaram ?ndice enzim?tico maior que 1. O isolado com o maior ?ndice (3,65) foi alvo de outras an?lises. A visualiza??o em microsc?pio sugeriu que n?o se tratava de um isolado e sim de um complexo de microrganismos atuando na degrada??o da celulose. H? evidencias de FBN no trato intestinal do dipl?pode e microrganismos proliferados em meio CMC pela boa amplifica??o de genes nifH e prolifera??o em meio com aus?ncia de nitrog?nio. A comunidade de procariotos foi influenciada pela dieta oferecida at? os 45 dias e a comunidade de actinomicetos foi condicionada em fun??o da dieta. Foram isolados microrganismos e complexos de microrganismos com capacidade celulol?tica, com grande potencial para a busca de tecnologias ambientalmente sustent?veis na gera??o de agrobioenergia.

Gut microbiolog

BNF in the gut

Cellulolytic enzymes

Microbiota associada ao trato intestinal

FBN no trato intestinal

Enzimas celulol?ticas

Ci?ncias Agr?rias