Your search keyword '"metagenomic DNA"' showing total 19 results

1. A rapid and efficient strategy to identify and recover biosynthetic gene clusters from soil metagenomes.

Author

Negri, Timo, Mantri, Shrikant, Angelov, Angel, Peter, Silke, Muth, Günther, Eustáquio, Alessandra S., and Ziemert, Nadine

Subjects

*GENE clusters, *METABOLITES, *SOILS, *PEPTIDES, *METAGENOMICS

Abstract

Culture-independent metagenomic approaches offer a promising solution to the discovery of therapeutically relevant compounds such as antibiotics by enabling access to the hidden biosynthetic potential of microorganisms. These strategies, however, often entail laborious, multi-step, and time-consuming procedures to recover the biosynthetic gene clusters (BGCs) from soil metagenomes for subsequent heterologous expression. Here, we developed an efficient method we called single Nanopore read cluster mining (SNRCM), which enables the fast recovery of complete BGCs from a soil metagenome using long- and short-read sequencing. A metagenomic fosmid library of 83,700 clones was generated and sequenced using Nanopore as well as Illumina technologies. Hybrid assembled contigs of the sequenced fosmid library were subsequently analyzed to identify BGCs encoding secondary metabolites. Using SNRCM, we aligned the identified BGCs directly to Nanopore long-reads and were able to detect complete BGCs on single fosmids. This enabled us to select for and recover BGCs of interest for subsequent heterologous expression attempts. Additionally, the sequencing data of the fosmid library and its corresponding metagenomic DNA enabled us to assemble and recover a large nonribosomal peptide synthetase (NRPS) BGC from three different fosmids of our library and to directly amplify and recover a complete lasso peptide BGC from the high-quality metagenomic DNA. Overall, the strategies presented here provide a useful tool for accelerating and facilitating the identification and production of potentially interesting bioactive compounds from soil metagenomes. Key points: • An efficient approach for the recovery of BGCs from soil metagenomes was developed to facilitate natural product discovery. • A fosmid library was constructed from soil metagenomic HMW DNA and sequenced via Illumina and Nanopore. • Nanopore long-reads enabled the direct identification and recovery of complete BGCs on single fosmids. [ABSTRACT FROM AUTHOR]

Published

2022

2. Improved method for the extraction of high-quality DNA from lignocellulosic compost samples for metagenomic studies.

Author

Costa, Ângela M. A., Santos, Andréia O., Sousa, Joana, Rodrigues, Joana L., Gudiña, Eduardo J., Silvério, Sara C., and Rodrigues, Ligia R.

Subjects

*METAGENOMICS, *NUCLEIC acid isolation methods, *HUMIC acid, *LIGNOCELLULOSE, *COMPOSTING, *MOLECULAR biology, *HUMUS

Abstract

The world economy is currently moving towards more sustainable approaches. Lignocellulosic biomass has been widely used as a substitute for fossil sources since it is considered a low-cost bio-renewable resource due to its abundance and continuous production. Compost habitats presenting high content of lignocellulosic biomass are considered a promising source of robust lignocellulose-degrading enzymes. Recently, several novel biocatalysts from different environments have been identified using metagenomic techniques. A key point of the metagenomics studies is the extraction and purification of nucleic acids. Nevertheless, the isolation of high molecular weight DNA from soil-like samples, such as compost, with the required quality for metagenomic approaches remains technically challenging, mainly due to the complex composition of the samples and the presence of contaminants like humic substances. In this work, a rapid and cost-effective protocol for metagenomic DNA extraction from compost samples composed of lignocellulosic residues and containing high content of humic substances was developed. The metagenomic DNA was considered as representative of the global environment and presented high quality (> 99% of humic acids effectively removed) and sufficient quantity (10.5–13.8 µg g−1 of compost) for downstream applications, namely functional metagenomic studies. The protocol takes about 4 h of bench work, and it can be performed using standard molecular biology equipment and reagents available in the laboratory. Key points/Highlights: • Metagenomic DNA was successfully extracted from compost samples rich in humic acids • The improved protocol was established by optimizing the cell lysis method and buffer • Complete removal of humic acids was achieved through the use of activated charcoal • The suitability of the DNA was proven by the construction of a metagenomic library [ABSTRACT FROM AUTHOR]

Published

2021

3. Comparison of DNA Extraction Methods for Optimal Recovery of Metagenomic DNA from Human and Environmental Samples.

Author

Gaur, Mohita, Vasudeva, Aarushi, Singh, Anoop, Sharma, Vishal, Khurana, Himani, Negi, Ram Krishan, Lee, Jung-Kul, Kalia, Vipin Chandra, Misra, Richa, and Singh, Yogendra

Subjects

*NUCLEIC acid isolation methods, *DNA, *ENVIRONMENTAL sampling, *HUMAN DNA, *BIOLOGICAL systems, *BREAST milk

Abstract

Metagenomics is the study of gene pool of an entire community in a particular niche. This provides valuable information about the functionality of host-microbe interaction in a biological ecosystem. Efficient metagenomic DNA extraction is a critical pre-requisite for a successful sequencing run in a metagenomic study. Although isolation of human stool metagenomic DNA is fairly standardized, the same protocol does not work as efficiently in fecal DNA from other organisms. In this study, we report a comparison of manual and commercial DNA extraction methods for diverse samples such as human stool, fish gut and soil. Fishes are known to have variable microbial diversity based on their food habits, so the study included two different varieties of fishes. A modified protocol for effective isolation of metagenomic DNA from human milk samples is also reported, highlighting critical precautions. Recent studies have emphasized the importance of studying functionality of human milk metagenome to understand its influence on infants' health. While manual method works well with most samples and therefore can be a method of choice for testing new samples, broad-range commercial kit offers advantage of high purity and quality. DNA extraction of different samples would go a long way in unraveling the unexplored association between microbes and host in a biological system. [ABSTRACT FROM AUTHOR]

Published

2019

4. CTAB influenced differential elution of metagenomic DNA from saltpan and marine sediments.

Author

Kachiprath, Bhavya, Jayanath, G., Solomon, Solly, and Sarasan, Manomi

Subjects

*BROMIDES, *METAGENOMICS, *NUCLEIC acid isolation methods, *SALT pans (Geology), *MARINE sediments

Abstract

A simple, reliable method for genomic DNA extraction from sediments with minimum contaminants was developed to address the risk of poor quality DNA in metagenomic studies. Nine DNA extraction methods using 20% cetyl-trimethyl-ammonium bromide (CTAB) were performed and compared to develop an extraction protocol that can offer humic acid-free metagenomic DNA from marine and saltpan sediments. Community DNA extraction was executed via., Zhou et al. modified protocol using 20% CTAB treatment at different steps to compare the efficacy of humic acid removal. Out of nine DNA extraction methods, method 6 significantly improved the quality of DNA with efficient removal of humic substances. 16S rRNA gene amplification and spectrophotometric analysis confirmed the efficiency of method 6 to remove DNA inhibitors from marine sediments as well as saltpan samples. Inhibitors extracted along with metagenomic DNA outcome increased DNA yield and PCR inhibition in method 1 and 3. However, repeated 20% CTAB wash in method 6 ensured 16S amplification and least yield and concentration. Current study explains a detailed protocol based on 20% CTAB wash for the extraction of humic acid-free DNA from diverse sediment samples. [ABSTRACT FROM AUTHOR]

Published

2018

5. Metagenome-derived haloalkane dehalogenases with novel catalytic properties.

Author

Kotik, Michael, Vanacek, Pavel, Kunka, Antonin, Prokop, Zbynek, and Damborsky, Jiri

Subjects

*HALOALKANES, *HALOGEN compounds, *POLYMERASE chain reaction, *ENANTIOSELECTIVE catalysis, *BIOCHEMICAL substrates

Abstract

Haloalkane dehalogenases (HLDs) are environmentally relevant enzymes cleaving a carbon-halogen bond in a wide range of halogenated pollutants. PCR with degenerate primers and genome-walking was used for the retrieval of four HLD-encoding genes from groundwater-derived environmental DNA. Using specific primers and the environmental DNA as a template, we succeeded in generating additional amplicons, resulting altogether in three clusters of sequences with each cluster comprising 8-13 closely related putative HLD-encoding genes. A phylogenetic analysis of the translated genes revealed that three HLDs are members of the HLD-I subfamily, whereas one gene encodes an enzyme from the subfamily HLD-II. Two metagenome-derived HLDs, eHLD-B and eHLD-C, each from a different subfamily, were heterologously produced in active form, purified and characterized in terms of their thermostability, pH and temperature optimum, quaternary structure, substrate specificity towards 30 halogenated compounds, and enantioselectivity. eHLD-B and eHLD-C showed striking differences in their activities, substrate preferences, and tolerance to temperature. Profound differences were also determined in the enantiopreference and enantioselectivity of these enzymes towards selected substrates. Comparing our data with those of known HLDs revealed that eHLD-C exhibits a unique combination of high thermostability, high activity, and an unusually broad pH optimum, which covers the entire range of pH 5.5-8.9. Moreover, a so far unreported high thermostability for HLDs was determined for this enzyme at pH values lower than 6.0. Thus, eHLD-C represents an attractive and novel biocatalyst for biotechnological applications. [ABSTRACT FROM AUTHOR]

Published

2017

6. An improved method suitable for isolation of high-quality metagenomic DNA from diverse soils.

Author

Verma, Sumit, Singh, Himanshi, and Sharma, Prakash

Subjects

*METAGENOMICS, *DNA analysis, *SOIL microbiology, *LYSOZYMES, *RIBOSOMAL RNA, *TANNERY waste disposal, *POLYMERASE chain reaction

Abstract

Standardization of metagenomic DNA extraction protocol is a pre-requisite for a successful metagenomic study aiming to screen and exploit the variety of microorganisms inhabiting a particular soil environment. Six methods reported earlier were used for isolation of metagenomic DNA in the present study. These methods suffered with regard to either poor yield or quality of DNA. Therefore, we developed an improved method for isolation of high-molecular weight and good quality metagenomic DNA from different soil samples. Our protocol combines the enzymatic (lysozyme and proteinase K) and chemical (CTAB and CaCl) strategies to ensure efficient cell lysis and use of PEG and isopropanol for precipitation of humic impurities-free DNA. Our improved method gave high yield of good quality metagenomic DNA from diverse soils collected from garden, domestic waste dumping site, cellulose waste dumping site, sewage site, and tannery waste site. The good quality of the metagenomic DNA was evident by spectrophotometry data, PCR amplification of 16S rRNA gene and restriction digestion. [ABSTRACT FROM AUTHOR]

Published

2017

7. High-quality metagenomic DNA from marine sediment samples for genomic studies through a preprocessing approach.

Author

Solomon, Solly, Kachiprath, Bhavya, Jayanath, G., Sajeevan, T., Bright Singh, I., and Philip, Rosamma

Subjects

*GENOMICS, *MOLECULAR genetics, *METAGENOMICS, *MICROBIAL genomics, *DNA, *CELL separation

Abstract

Recent advances in culture-independent studies of microbes had proved to be more reliable and efficient than the conventional ones. The isolation of good quality and quantity of total community DNA are one of the major hurdles in this endeavour. Shearing of DNA during the extraction process and the co-extraction of inhibitory compounds reduce the quality of the isolated nucleic acids making it unsuitable for the construction of large insert metagenomic libraries. In the present study, a multi-level filtration step was brought in which efficiently isolated total bacterial DNA from three different environment samples. The preprocessing method could efficiently improve the 260/230 ratio of the isolated DNA by 2.3-45 % and decreased the protein contamination by 22.5-34.5 % on saltpan and arctic sediment samples, respectively. The more significant part of the experiment was that the DNA obtained was of high quality with minimal shearing making it most suitable for the construction of large insert genomic libraries. PCR amplification of 16S rRNA gene confirmed that the filtration method was effective in the isolation of high-quality DNA. [ABSTRACT FROM AUTHOR]

Published

2016

8. Fungal communities from the calcareous deep-sea sediments in the Southwest India Ridge revealed by Illumina sequencing technology.

Author

Zhang, Likui, Kang, Manyu, Huang, Yangchao, and Yang, Lixiang

Subjects

*MARINE fungi, *COMPOSITION of marine sediments, *FUNGI diversity, *FUNGAL genes, *NUCLEOTIDE sequencing, *BASIDIOMYCOTA

Abstract

The diversity and ecological significance of bacteria and archaea in deep-sea environments have been thoroughly investigated, but eukaryotic microorganisms in these areas, such as fungi, are poorly understood. To elucidate fungal diversity in calcareous deep-sea sediments in the Southwest India Ridge (SWIR), the internal transcribed spacer (ITS) regions of rRNA genes from two sediment metagenomic DNA samples were amplified and sequenced using the Illumina sequencing platform. The results revealed that 58-63 % and 36-42 % of the ITS sequences (97 % similarity) belonged to Basidiomycota and Ascomycota, respectively. These findings suggest that Basidiomycota and Ascomycota are the predominant fungal phyla in the two samples. We also found that Agaricomycetes, Leotiomycetes, and Pezizomycetes were the major fungal classes in the two samples. At the species level , Thelephoraceae sp. and Phialocephala fortinii were major fungal species in the two samples. Despite the low relative abundance, unidentified fungal sequences were also observed in the two samples. Furthermore, we found that there were slight differences in fungal diversity between the two sediment samples, although both were collected from the SWIR. Thus, our results demonstrate that calcareous deep-sea sediments in the SWIR harbor diverse fungi, which augment the fungal groups in deep-sea sediments. This is the first report of fungal communities in calcareous deep-sea sediments in the SWIR revealed by Illumina sequencing. [ABSTRACT FROM AUTHOR]

Published

2016

9. Direct cloning, expression of a thermostable xylanase gene from the metagenomic DNA of cow dung compost and enzymatic production of xylooligosaccharides from corncob.

Author

Sun, Ming-zhe, Zheng, Hong-chen, Meng, Ling-cai, Sun, Jun-she, Song, Hui, Bao, Yun-juan, Pei, Hai-sheng, Yan, Zheng, Zhang, Xiu-qing, Zhang, Jing-sheng, Liu, Yi-han, and Lu, Fu-ping

Subjects

MOLECULAR cloning, HEAT stability in proteins, OLIGOSACCHARIDE synthesis, CATTLE manure microbiology, METAGENOMICS, GENE expression in mammals

Abstract

Objectives: To acquire a thermostable xylanase, that is suitable for xylooligosaccharide production from pretreated corncobs, the metagenomic method was used to obtain the gene from an uncultured environmental microorganism. Results: A thermostable xylanase-encoding gene ( xyn10CD18) was cloned directly from the metagenomic DNA of cow dung compost. When xyn10CD18 was expressed in Bacillus megaterium MS941, extracellular xylansae activity at 106 IU/ml was achieved. The purified recombinant Xyn10CD18 was optimally active at pH 7 and 75 °C as measured over 10 min. It retained over 55 % of its initial activity at 70 °C and pH 7 after 24 h. Its action on birchwood xylan for 18 h liberated xylooligosaccharides with 2°-4° of polymerization, with xylobiose and xylotetraose as the main products. When pretreated corncobs were hydrolyzed by Xyn10CD18 for 18 h, the xylooligosaccharides (DP 2-4) products increased to 80 % and the xylose was just increased by 3 %. Conclusion: Xyn10CD18 is a thermostable endoxylanase and is a promising candidate for biomass conversion and xylooligosaccharide production. [ABSTRACT FROM AUTHOR]

Published

2015

10. A method suitable for DNA extraction from humus-rich soil.

Author

Miao, Tianjin, Gao, Song, Jiang, Shengwei, Kan, Guoshi, Liu, Pengju, Wu, Xianming, An, Yingfeng, and Yao, Shuo

Subjects

NUCLEIC acid isolation methods, SOILS, HUMUS, CHLOROFORM, PHENOLS

Abstract

A rapid and convenient method for extracting DNA from soil is presented. Soil DNA is extracted by direct cell lysis in the presence of EDTA, SDS, phenol, chloroform and isoamyl alcohol (3-methyl-1-butanol) followed by precipitation with 2-propanol. The extracted DNA is purified by modified DNA purification kit and DNA gel extraction kit. With this method, DNA extracted from humus-rich dark brown forest soil was free from humic substances and, therefore, could be used for efficient PCR amplification and restriction digestion. In contrast, DNA sample extracted with the traditional CTAB-based method had lower yield and purity, and no DNA could be extracted from the same soil sample with a commonly-used commercial soil DNA isolation kit. In addition, this method is time-saving and convenient, providing an efficient choice especially for DNA extraction from humus-rich soils. [ABSTRACT FROM AUTHOR]

Published

2014

11. Cloning and identification of a novel NhaD-type Na/H antiporter from metagenomic DNA of the halophilic bacteria in soil samples around Daban Salt Lake.

Author

Zhang, Hua, Wang, Zhenhui, Wang, Lei, Mu, Ren, Zou, Zhi, Yuan, Kun, Wang, Yuekun, Wu, Haiping, Jiang, Juquan, and Yang, Lifu

Subjects

*METAGENOMICS, *HALOBACTERIUM, *CLONING, *BACTERIAL genes, *ESCHERICHIA coli, *VIBRIO cholerae

Abstract

In this study, metagenomic DNA was screened for the Na/H antiporter gene from the halophilic bacteria in Daban Salt Lake by selection in Escherichia coli KNabc lacking three major Na/H antiporters. One gene designated as Hb_ nhaD encoding a novel NhaD-type Na/H antiporter was finally cloned. The presence of Hb_NhaD conferred tolerance of E. coli KNabc to up to 0.5 M NaCl and 0.2 M LiCl, and an alkaline pH. Hb_NhaD has the highest identity (70.6 %) with a putative NhaD-type Na/H antiporter from an uncharacterized Clostridiaceae species, and also has lower identity with known NhaD-type Na/H antiporters from Halomonas elongata (20.8 %), Alkalimonas amylolytica (19.0 %), Vibrio parahaemolyticus (18.9 %) and Vibrio cholerae (18.7 %). pH-dependent Na(Li)/H antiport activity was detected from everted membrane vesicles prepared from E. coli KNabc carrying Hb _nhaD. Hb_NhaD exhibited very high Na(Li)/H antiport activity over a wide pH range from 6.5 to 9.0 with the highest activity at pH 7.0 which is significantly different from those of the above known NhaD-type Na/H antiporters. Also, the apparent K values of Hb_NhaD for Na and Li at pH 7.0 were determined to be 1.31 and 2.16, respectively. Based on the above results, we proposed that Hb_NhaD should be categorized as a novel NhaD-type Na/H antiporter. [ABSTRACT FROM AUTHOR]

Published

2014

12. Diversity and catalytic potential of PAH-specific ring-hydroxylating dioxygenases from a hydrocarbon-contaminated soil.

Author

Martin, Florence, Malagnoux, Laure, Violet, Fabien, Jakoncic, Jean, and Jouanneau, Yves

Subjects

*POLYCYCLIC aromatic compounds, *POLLUTANTS, *PROKARYOTES, *SOIL pollution, *BURKHOLDERIA

Abstract

Ring-hydroxylating dioxygenases (RHDs) catalyze the initial oxidation step of a range of aromatic hydrocarbons including polycyclic aromatic hydrocarbons (PAHs). As such, they play a key role in the bacterial degradation of these pollutants in soil. Several polymerase chain reaction (PCR)-based methods have been implemented to assess the diversity of RHDs in soil, allowing limited sequence-based predictions on RHD function. In the present study, we developed a method for the isolation of PAH-specific RHD gene sequences of Gram-negative bacteria, and for analysis of their catalytic function. The genomic DNA of soil PAH degraders was labeled in situ by stable isotope probing, then used to PCR amplify sequences specifying the catalytic domain of RHDs. Sequences obtained fell into five clusters phylogenetically linked to RHDs from either Sphingomonadales or Burkholderiales. However, two clusters comprised sequences distantly related to known RHDs. Some of these sequences were cloned in-frame in place of the corresponding region of the phnAIa gene from Sphingomonas CHY-1 to generate hybrid genes, which were expressed in Escherichia. coli as chimerical enzyme complexes . Some of the RHD chimeras were found to be competent in the oxidation of two- and three-ring PAHs, but other appeared unstable. Our data are interpreted in structural terms based on 3D modeling of the catalytic subunit of hybrid RHDs. The strategy described herein might be useful for exploring the catalytic potential of the soil metagenome and recruit RHDs with new activities from uncultured soil bacteria. [ABSTRACT FROM AUTHOR]

Published

2013

13. Diversity of Polyketide Synthase (PKS) genes in metagenomic community of freshwater sponge Lubomirskia baicalensis.

Author

Kaluzhnaya, O., Kulakova, N., and Itskovich, V.

Subjects

*POLYKETIDE synthases, *METAGENOMICS, *MICROBIAL diversity, *BIOTIC communities, *FRESHWATER sponges, *DEMOSPONGIAE, *GENETIC testing, *DNA analysis

Abstract

The screening of metagenomic DNA of the microbial community associated with the Baikalian sponge Lubomirskia baicalensis was performed in order to investigate the presence of polyketide synthase (PKS) genes. PKS enzyme systems take part in the synthesis of a great number of biologically active substances. The cloning and sequencing of amplified products of the ketosynthase domain section of the PKS gene cluster revealed 15 fragments of PKS genes with amino acid sequences differing from each other by 35-65%. A BLASTX analysis showed that all of these sequences belong to KS domains identified in various groups of microorganisms, i.e., Alpha-, Beta-, and Deltaproteobacteria; Verrucomicrobia; Cyanobacteria; and Chlorophyta. Some sequences were related to genes that participate in the biosynthesis of curacin A ( CurI, CurJ), stigmatellin ( StiC, StiG), nostophycin ( NpnB), and cryptophycin ( CrpB). The homology of the found sequences with those of the EMBL database lies in the range of 50-82%, which indicates that the freshwater sponge community contains genes that encode new, not yet studied polyketide substances of potential biotechnological significance. [ABSTRACT FROM AUTHOR]

Published

2012

14. An Improved Protocol for DNA Extraction from Alkaline Soil and Sediment Samples for Constructing Metagenomic Libraries.

Author

Verma, Digvijay and Satyanarayana, T.

Abstract

An improved single-step protocol has been developed for extracting pure community humic substance-free DNA from alkaline soils and sediments. The method is based on direct cell lysis in the presence of powdered activated charcoal and polyvinylpolypyrrolidone followed by precipitation with polyethyleneglycol and isopropanol. The strategy allows simultaneous isolation and purification of DNA while minimizing the loss of DNA with respect to other available protocols for metagenomic DNA extraction. Moreover, the purity levels are significant, which are difficult to attain with any of the methods reported in the literature for DNA extraction from soils. The DNA thus extracted was free from humic substances and, therefore, could be processed for restriction digestion, PCR amplification as well as for the construction of metagenomic libraries. [ABSTRACT FROM AUTHOR]

Published

2011

15. A Simple Silica-based Method for Metagenomic DNA Extraction from Soil and Sediments.

Author

Rojas-Herrera, R., Narváez-Zapata, J., Zamudio-Maya, M., and Mena-Martínez, M.

Abstract

A new method is described for extraction of metagenomic DNA from soil and sediments which is based on DNA adsorption to silica without the use of phenol, ethanol precipitation or a cesium chloride gradient. High-quality DNA was obtained, and PCR inhibition was overcome by adding bovine serum albumin and adjusting magnesium concentration. By using PCR-DGGE with Firmicutes and lactic acid bacteria-specific primers the extracted metagenomic DNA was shown to contain a mixture of bacterial genomes. This method can be used for screening bacterial diversity in soil and sediment samples. [ABSTRACT FROM AUTHOR]

Published

2008

16. An improved method for single step purification of metagenomic DNA.

Author

Sharma, Pushpender, Capalash, Neena, and Kaur, Jagdeep

Abstract

An improved method for purification of intact metagenomic DNA from soil has been developed using Q-Sepharose, which purified the DNA from phenolic and humic acid contaminants in a single step. The entire procedure for purification took only 45 min. A total of 81% of DNA was recovered after purification and there was 84% reduction in humic acid contents. The purified DNA was readily digested with restriction enzymes and can be further used for molecular applications. [ABSTRACT FROM AUTHOR]

Published

2007

17. Achievements and new knowledge unraveled by metagenomic approaches

Author

Rolf Daniel and Carola Simon

Subjects

Databases, Factual, Metagenomic dna, Computational biology, Biology, Sequence-based screens, Applied Microbiology and Biotechnology, Metabolic diversity, 03 medical and health sciences, Metagenomics, Metagenomic library, Biocatalysts, Function-based screens, Metagenomics: An Alternative Approach to Genomics, Base sequence, Genetic Testing, Chemistry, Microbial Genetics and Genomics, Microbiology, Biotechnology, Ecosystem, Phylogeny, Gene Library, 030304 developmental biology, 0303 health sciences, Genome, Base Sequence, 030306 microbiology, business.industry, Genetic Variation, General Medicine, Mini-Review, Enzymes, Phenotype, Genes, business, Sequence Alignment, Algorithms

Abstract

Metagenomics has paved the way for cultivation-independent assessment and exploitation of microbial communities present in complex ecosystems. In recent years, significant progress has been made in this research area. A major breakthrough was the improvement and development of high-throughput next-generation sequencing technologies. The application of these technologies resulted in the generation of large datasets derived from various environments such as soil and ocean water. The analyses of these datasets opened a window into the enormous phylogenetic and metabolic diversity of microbial communities living in a variety of ecosystems. In this way, structure, functions, and interactions of microbial communities were elucidated. Metagenomics has proven to be a powerful tool for the recovery of novel biomolecules. In most cases, functional metagenomics comprising construction and screening of complex metagenomic DNA libraries has been applied to isolate new enzymes and drugs of industrial importance. For this purpose, several novel and improved screening strategies that allow efficient screening of large collections of clones harboring metagenomes have been introduced. peerReviewed

18. Cold shock induction of recombinant Arctic environmental genes

Author

Gro Elin Kjæreng Bjerga and Adele Kim Williamson

Subjects

Fusion partner, Geologic Sediments, Oceans and Seas, Genetic Vectors, Adaptation, Biological, VDP::Matematikk og Naturvitenskap: 400::Basale biofag: 470::Generell mikrobiologi: 472, Biology, Restriction-free cloning, medicine.disease_cause, law.invention, law, Escherichia coli, medicine, Cloning, Molecular, Psychrophile, Gene, Cloning, Genetics, Arctic Regions, Cold-Shock Response, Chitinases, VDP::Mathematics and natural science: 400::Basic biosciences: 470::General microbiology: 472, cspA promoter, Metagenomic DNA, Recombinant Proteins, Enzymes, Cold Temperature, Cold-adapted, Biochemistry, Enzyme Induction, Chitinase, Recombinant DNA, biology.protein, Metagenome, Heterologous expression, Function (biology), Research Article, Biotechnology

Abstract

Background Heterologous expression of psychrophilic enzymes in E. coli is particularly challenging due to their intrinsic instability. The low stability is regarded as a consequence of adaptation that allow them to function at low temperatures. Recombinant production presents a significant barrier to their exploitation for commercial applications in industry. Methods As part of an enzyme discovery project we have investigated the utility of a cold-shock inducible promoter for low-temperature expression of five diverse genes derived from the metagenomes of marine Arctic sediments. After evaluation of their production, we further optimized for soluble production by building a vector suite from which the environmental genes could be expressed as fusions with solubility tags. Results We found that the low-temperature optimized system produced high expression levels for all putatively cold-active proteins, as well as reducing host toxicity for several candidates. As a proof of concept, activity assays with one of the candidates, a putative chitinase, showed that functional protein was obtained using the low-temperature optimized vector suite. Conclusions We conclude that a cold-shock inducible system is advantageous for the heterologous expression of psychrophilic proteins, and may also be useful for expression of toxic mesophilic and thermophilic proteins where properties of the proteins are deleterious to the host cell growth. Electronic supplementary material The online version of this article (doi:10.1186/s12896-015-0185-1) contains supplementary material, which is available to authorized users.

19. Kraken: ultrafast metagenomic sequence classification using exact alignments

Author

Derrick E. Wood and Steven L. Salzberg

Subjects

Metagenomic dna, Kraken, Method, microbiome, Biology, Sensitivity and Specificity, 03 medical and health sciences, Humans, 030304 developmental biology, Genetics, metagenomics, 0303 health sciences, Sequence, Abundance estimation, Bacteria, 030306 microbiology, Extramural, Sequence Analysis, DNA, Classification, Archaea, k-mer, Metagenomics, sequence alignment, Metagenome, next-generation sequencing, sequence classification, Shotgun metagenomics, Algorithm, Software

Abstract

Kraken is an ultrafast and highly accurate program for assigning taxonomic labels to metagenomic DNA sequences. Previous programs designed for this task have been relatively slow and computationally expensive, forcing researchers to use faster abundance estimation programs, which only classify small subsets of metagenomic data. Using exact alignment of k-mers, Kraken achieves classification accuracy comparable to the fastest BLAST program. In its fastest mode, Kraken classifies 100 base pair reads at a rate of over 4.1 million reads per minute, 909 times faster than Megablast and 11 times faster than the abundance estimation program MetaPhlAn. Kraken is available at http://ccb.jhu.edu/software/kraken/.