1 |
Mining a Chinese hyperthermophilic metagenome.Du Plessis, Morne Graham. January 2007 (has links)
<p>The broader aim of this work was to investigate the implementation of metagenomic library construction and sequencing-based approaches, as a basis for gene identification and functional characterization, from a novel thermophilic environment.</p>
|
2 |
Mining a Chinese hyperthermophilic metagenome.Du Plessis, Morne Graham. January 2007 (has links)
<p>The broader aim of this work was to investigate the implementation of metagenomic library construction and sequencing-based approaches, as a basis for gene identification and functional characterization, from a novel thermophilic environment.</p>
|
3 |
Mining a Chinese hyperthermophilic metagenomeDu Plessis, Morne Graham January 2007 (has links)
Philosophiae Doctor - PhD / Metagenomic sequencing of environmental samples provide direct access to
genomic information of organisms within the respective environments. This
sequence information represents a significant resource for the identification and subsequent characterization of potentially novel genes, or known genes with acquired novel characteristics. Within this context, the thermophilic environments are of particular interest due to its potential for deriving novel thermostable enzymes with biotechnological and industrial applications. In this work metagenomic library construction, random sequencing and sequence analysis strategies were employed to enhance identification and characterisation of potentially novel genes, from a thermophilic soil sample. High molecular weight metagenomic DNA was extracted from two Chinese hydrothermal soil samples. This was used as source material for the construction of four genomic DNA libraries. The combined libraries were estimated to contain in the order of 1.3 million genes, which provides a rich resource for gene identification. Approximately 70 kbp of sequence data was generated from one of the libraries as a resource for sequence-based analysis. Initial BLAST analysis predicted the presence of 53 ORFs/partial ORFs. The BLAST similarity scores for the investigated ORFs were sufficiently high (>40%) to infer homology with database proteins while also being indicative of novel sequence variants of these database matches. In an attempt to enhance the potential for deriving more full length ORFs a novel strategy, based on WGA technology, was employed. This resulted in the recovery of the near complete sequence of partial ORF5, directly from the
WGA DNA of the environmental sample. While the full length ORF5 could not be
recovered, the feasibility of this novel approach, for enhanced metagenomic
sequence recovery was proved in principle. The implementation of multiple insilico strategies resulted in the identification of two ORFs, classified as homologs of the DUF29 and Usp protein families respectively. The functional inference obtained from the integrated in-silico predictions was furthermore highly suggestive of a putative nucleotide binding/interaction role for both ORFs. A putative novel DNA polymerase gene (denoted TC11pol) was identified from the sequence data. Expression and characterization of the full length TC11pol did however not result in detectable polymerase activity. The implementation of a homology modeling approach proved succesfull for deriving a structural model of the polymerase that was used for: (i) deriving functional inferences of the potential activities of the polymerase and (ii) deriving a 5’ exonuclease deletion mutant for functional analysis. Expression and subsequent functional characterization of the putative 5’exo- TC11pol mutant resulted in detectable polymerase and 3’-5’ exonuclease activity at 37 and 45 oC, following a heat denaturation step at 55 oC for 1 hour. It was, therefore concluded that the putative 5’exo- TC11pol mutant was functionally equivalent to the Klenow fragment of E. coli, while exhibiting increased thermostability. / South Africa
|
4 |
Triagem de enzimas associadas à biotransformação de hidrocarbonetos a partir de metagenoma de sedimentos contaminados com petroléo e metais pesados / Screening of Enzymes Related to Biotransformation of Hydrocarbons from Metagenome of Contaminated Sediments with Oil and Heavy MetalsSimões, Tiago Henrique Nogueira 08 July 2009 (has links)
A metagenômica trouxe novas perspectivas ao estudo de comunidades microbianas no ambiente, permitindo explorar tanto a diversidade taxonômica de microrganismos ainda não-cultivados, como o acesso direto a genes e vias metabólicas. Neste trabalho, foram construídas bibliotecas metagenômicas a partir de amostras de sedimentos de mangue da Baía de Guanabara (RJ), impactadas com hidrocarbonetos de petróleo e metais pesados. Proteobacteria (33,3%), bactérias afiliadas a redutoras-de-sulfato (29,7%) e Firmicutes (20%) representaram os grupos principais nas amostras ambientais, baseado em análises filogenéticas de rDNA 16S, ao passo que isolamentos seletivos utilizando diesel e naftaleno permitiram a recuperação preferencial de delta-Proteobacteria e actinomicetos. Bibliotecas metagenômicas dos sedimentos enriquecidos com óleo diesel, com insertos entre 25 e 35 Kb clonados em fosmídeos, foram triadas para detecção de genes catabólicos de monoxigenases (alkB1) e expressão de epóxido-hidrolases, esterases, lipases e monoxigenases em ensaios de alto desempenho (HTS, high throughput screening). Clones reativos a alkB1 foram detectados, porém não foram funcionais nas condições de HTS testadas. Nas bibliotecas de fosmídeos triadas, vários clones apresentaram atividade enzimática, sendo que dois apresentaram atividade de lipase-esterase com alta seletividade, elevada taxa de conversão de substratos e excesso enantiomérico (ee >99%). Os resultados de HTS comprovaram a eficiência do uso da clonagem direta de DNA ambiental na expressão de vias metabólicas de interesse com potencial de aplicação biotecnológica. / Metagenomics brought a new perspective to the study of microbial communities in the environment, enabling access to the taxonomic diversity of uncultured microorganisms, as well as direct access to genes and metabolic pathways. In the current study, metagenomic libraries were constructed from mangrove sediment samples of the Guanabara Bay (RJ, Brazil), impacted with oil hydrocarbons and heavy metals. Proteobacteria (33.3%), sulfate-reducing affiliated bacteria (29.7%) and Firmicutes (20%) represented the main groups in the environmental samples based upon 16S rDNA phylogenetic analysis, whereas selective isolation using diesel and naphtalene yielded delta-Proteobacteria and actinomycetes. Metagenomic libraries of diesel-enriched sediment samples, with 25 to 35 Kb fosmid inserts, were screened for detecting monooxigenase genes (alkB1) and expression of epoxide hydrolases, esterases, lipases and monooxigenases in high throughput screening (HTS) assays. Clones reactive to the alkB1 probe were detected, but were not functional under the HTS conditions used. Several functional clones were detected in the clone library, and two showed lipase-esterase activity with high rates of substrate conversion and enantiomeric ratio (ee >99%). The results obtained on HTS showed the efficiency of the direct cloning of environmental DNA for the expression of metabolic pathways with potential biotechnological application.
|
5 |
Isolierung von DNA und Konstruktion einer Metagenombank aus dem Sediment des Flusses Leine: partielle Sequenzierung und Annotation des Metagenoms sowie Analyse der mikrobiellen Diversität / Isolation of DNA and construction of a metagenomic library of the River Leine sediment: partial sequencing and annotation of the metagenome and analysis of the phylogenetic diversitySchmitz, Jessica Estelle 25 January 2005 (has links)
No description available.
|
6 |
Biopolymer gene discovery and characterization using metagenomic librariesOhlhoff, Colin Walter 12 1900 (has links)
Thesis (MSc (Genetics. Institute of Plant Biotechnology))--Stellenbosch University, 2008. / Traditional methods used for the discovery of novel genes have previously relied upon
the ability to culture the relevant microbes and then demonstrate the activity of a specific
enzyme. Although these methods have proved successful in the past, they severely limit
our access to the genomes of organisms which are not able to be cultured under
laboratory conditions. It was therefore the aim of this project to use metagenomic
strategies for the identification of novel polymer-producing genes with the prospect of
commercial exploitation.
In this study, soil-derived metagenomic libraries were functionally screened for potential
-glucan producing clones using aniline blue staining. Positive reacting clones were
selected and sequenced. Initial sequencing revealed a gene with high homology to
previously described glucan synthases, the products of these genes all having significant
industrial value. The clone was transformed into a suitable bacterial host, cultured and
allowed to produce the polymer of interest. The polysaccharide was purified and
subjected to various chemical analyses so as to confirm its monosaccharide composition.
Data suggests that this polymer is composed mainly of glucose units and that it may be
secreted out of the cell. Purification of the active enzyme was attempted using classical
protein purification methods with faint activity being detected using Native
polyacrylamide gel electrophoresis (PAGE). Further attempts to demonstrate activity
were made through the construction of a GST (glutathione S-transferase) tagged fusion
protein.
The second part of this study focuses on the construction and screening of a metagenomic
DNA library from whey, a by-product of the cheese manufacturing process. It was
envisaged that this could provide a resource for the identification of high value polymers
when lactose is provided as a sole carbon source. The library was screened for function
using Congo Red for the detection of extra-cellular polysaccharides.
|
7 |
Triagem de enzimas associadas à biotransformação de hidrocarbonetos a partir de metagenoma de sedimentos contaminados com petroléo e metais pesados / Screening of Enzymes Related to Biotransformation of Hydrocarbons from Metagenome of Contaminated Sediments with Oil and Heavy MetalsTiago Henrique Nogueira Simões 08 July 2009 (has links)
A metagenômica trouxe novas perspectivas ao estudo de comunidades microbianas no ambiente, permitindo explorar tanto a diversidade taxonômica de microrganismos ainda não-cultivados, como o acesso direto a genes e vias metabólicas. Neste trabalho, foram construídas bibliotecas metagenômicas a partir de amostras de sedimentos de mangue da Baía de Guanabara (RJ), impactadas com hidrocarbonetos de petróleo e metais pesados. Proteobacteria (33,3%), bactérias afiliadas a redutoras-de-sulfato (29,7%) e Firmicutes (20%) representaram os grupos principais nas amostras ambientais, baseado em análises filogenéticas de rDNA 16S, ao passo que isolamentos seletivos utilizando diesel e naftaleno permitiram a recuperação preferencial de delta-Proteobacteria e actinomicetos. Bibliotecas metagenômicas dos sedimentos enriquecidos com óleo diesel, com insertos entre 25 e 35 Kb clonados em fosmídeos, foram triadas para detecção de genes catabólicos de monoxigenases (alkB1) e expressão de epóxido-hidrolases, esterases, lipases e monoxigenases em ensaios de alto desempenho (HTS, high throughput screening). Clones reativos a alkB1 foram detectados, porém não foram funcionais nas condições de HTS testadas. Nas bibliotecas de fosmídeos triadas, vários clones apresentaram atividade enzimática, sendo que dois apresentaram atividade de lipase-esterase com alta seletividade, elevada taxa de conversão de substratos e excesso enantiomérico (ee >99%). Os resultados de HTS comprovaram a eficiência do uso da clonagem direta de DNA ambiental na expressão de vias metabólicas de interesse com potencial de aplicação biotecnológica. / Metagenomics brought a new perspective to the study of microbial communities in the environment, enabling access to the taxonomic diversity of uncultured microorganisms, as well as direct access to genes and metabolic pathways. In the current study, metagenomic libraries were constructed from mangrove sediment samples of the Guanabara Bay (RJ, Brazil), impacted with oil hydrocarbons and heavy metals. Proteobacteria (33.3%), sulfate-reducing affiliated bacteria (29.7%) and Firmicutes (20%) represented the main groups in the environmental samples based upon 16S rDNA phylogenetic analysis, whereas selective isolation using diesel and naphtalene yielded delta-Proteobacteria and actinomycetes. Metagenomic libraries of diesel-enriched sediment samples, with 25 to 35 Kb fosmid inserts, were screened for detecting monooxigenase genes (alkB1) and expression of epoxide hydrolases, esterases, lipases and monooxigenases in high throughput screening (HTS) assays. Clones reactive to the alkB1 probe were detected, but were not functional under the HTS conditions used. Several functional clones were detected in the clone library, and two showed lipase-esterase activity with high rates of substrate conversion and enantiomeric ratio (ee >99%). The results obtained on HTS showed the efficiency of the direct cloning of environmental DNA for the expression of metabolic pathways with potential biotechnological application.
|
8 |
Assessment of the functional diversity of soil microbial communities in the German Biodiversity Exploratories by metagenomics / Erschließung der funktionellen Diversität mikrobieller Bodengemeinschaften in den deutschen Biodiversitäts-Exploratorien durch MetagenomikWill, Christiane 28 January 2011 (has links)
No description available.
|
9 |
Identification and Characterization of Microbial Key Functions in Soils of the German Biodiversity Exploratories Representing Different Land Use and Management Types / Identifizierung und Charakterisierung von mikrobiellen Schlüsselfunktionen in Böden unterschiedlichen Landnutzungs- und Managementtyps der deutschen Biodiversitäts-ExploratorienNacke, Heiko 20 October 2011 (has links)
No description available.
|
Page generated in 0.0813 seconds