Your search keyword '"metagenomic DNA"' showing total 192 results

1. 16S rRNA Fragment of Metagenomic DNA, Antibacterial and Cellulase Activity from Garbage Enzymes of Sweet Orange (Citrus sinensis) Peels

Author

Wirajana, I Nengah, Bramandita, I Made, Sukadana, I Made, Ma, Wanshu, Series Editor, Mahendra, I Putu, editor, Sarmoko, Sarmoko, editor, Pardede, Indra, editor, Watcarawipas, Akaraphol, editor, and Zulkepli, Nur Ayunie Binti, editor

Published

2024

2. Community Structure and Diversity of Rhizosphere Soil and Endophytic Bacteria during the Period of Growth of Moso Bamboo Shoots

Author

Zongsheng Yuan, Fang Liu, Zhi-hao Zeng, and Hui Pan

Subjects

community structure, metagenomic dna, rhizosphere, endophytic bacteria, operational taxonomic unit, Biochemistry, QD415-436, Biology (General), QH301-705.5

Abstract

Background: The purpose of this study was to elucidate the community structure of rhizosphere soil bacteria and endophytic bacteria during the growth of moso bamboo (Phyllostachys edulis) shoots. Methods: This study collected the rhizospheric soil samples, tissue samples of rhizome roots, shoot buds, winter bamboo shoots, spring bamboo shoots, and samples of forest soil. Their metagenomic DNA was extracted, and the bacterial community structure and diversity characteristics were compared and analyzed using high-throughput sequencing technology. Results: These samples enabled the identification of 32 phyla, 52 classes, 121 orders, 251 families, and 593 genera of bacteria. The phyla primarily included Proteobacteria, Acidobacteria, and Cyanobacteria among others. Proteobacteria was the dominant phylum in the samples of bamboo shoots and rhizome roots, whereas Acidobacteria was dominant in the rhizosphere and forest soil samples. The predominant genera of the rhizome root samples were Acidothermus, Bradyrhizobium and Acidobacterium, and the predominant genera of the soil samples were Acidothermus and Acidobacterium. Conclusions: This study preliminarily revealed the regularity between the growth and development of bamboo shoots and the changes in the community structure of rhizosphere soil and endophytic bacteria, which provides insights into the relationship between growth and the bacterial community structure in different stages of bamboo shoots.

Published

2023

3. Oxygen exposure decreases the yield of high-molecular-weight DNA from some anaerobic bacteria and bacterial communities during DNA extraction.

Author

Boycheva S, Roberton AM, Pisaniello A, Pardesi B, White WL, and Clements KD

Abstract

Objectives: The central challenge in third-generation sequencing lies in meeting the requirements for DNA quality (integrity and purity) and quantity. Therefore, novel improvements in DNA extraction methods are needed to satisfy these requirements. We reasoned that in anaerobic microbial communities, the presence of certain strict anaerobes containing oxygen-activated DNase activity might contribute substantially to the poor integrity of extracted metagenomic DNA (or genomic DNA from some pure cultures) if exposed to air., Methods: To test this hypothesis, we developed an enhanced genomic and metagenomic DNA isolation technique that we applied to a specifically chosen set of both strict and aerotolerant anaerobes, as well as to the hindgut microbiota of a herbivorous marine fish., Results: Considering the quality (or degradation) of extracted DNA obtained under anaerobic versus aerobic conditions, we found that DNA extracted aerobically from cells of some strict anaerobes showed more degradation of high molecular weight DNA than analogous preparations under anaerobic conditions. In contrast, with the selected aerotolerant anaerobes, no discernible difference was found between the molecular sizes of DNA extracted aerobically and anaerobically. Metagenomic DNA extracted from the fish hindgut microbiota showed higher yields and better quality under anaerobic conditions compared to aerobic conditions., Conclusion: Our study effectively demonstrates the advantages of our improved extraction protocol in anaerobic conditions. This is evident through the improved quality of extracted DNA. Such findings may be valuable for studies, especially metagenomic studies, where the quality and quantity of DNA are crucial for downstream analysis., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

4. 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

5. Assessment of microbiota present on a Portuguese historical stone convent using high‐throughput sequencing approaches

Author

Tânia Rosado, Luís Dias, Mónica Lança, Carla Nogueira, Rita Santos, Maria Rosário Martins, António Candeias, José Mirão, and Ana Teresa Caldeira

Subjects

biocolonization, biodegradation/biodeterioration, biodeteriogenic activity, metagenomic DNA, microbiota assessment, stone material biodecay, Microbiology, QR1-502

Abstract

Abstract The study performed on the stone materials from the Convent of Christ revealed the presence of a complex microbial ecosystem, emphasizing the determinant role of microorganisms on the biodecay of this built cultural heritage. In this case study, the presence of Rubrobacter sp., Arthrobacter sp., Roseomonas sp., and Marinobacter sp. seems to be responsible for colored stains and biofilm formation while Ulocladium sp., Cladosporium sp., and Dirina sp. may be related to structural damages. The implementation of high‐throughput sequencing approaches on the Convent of Christ's biodecay assessment allowed us to explore, compare, and characterize the microbial communities, overcoming the limitations of culture‐dependent techniques, which only identify the cultivable population. The application of these different tools and insights gave us a panoramic view of the microbiota thriving on the Convent of Christ and signalize the main biodeteriogenic agents acting on the biodecay of stone materials. This finding highlighted the importance of performing metagenomic studies due to the improvements and the reduced amount of sample DNA needed, promoting a deeper and more detailed knowledge of the microbiota present on these dynamic repositories that support microbial life. This will further enable us to perform prospective studies in quarry and applied stone context, monitoring biogenic and nonbiogenic agents, and also to define long‐term mitigation strategies to prevent biodegradation/biodeterioration processes.

Published

2020

6. 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

7. Modification of DNA regions with metagenomic DNA fragments (MDRMDF): A convenient strategy for efficient protein engineering.

Author

Xu, Shumin, Qi, Xianghui, Gao, Song, Zhang, Yifeng, Wang, Hongling, Shao, Yilun, Yang, Yao, and An, Yingfeng

Subjects

*PROTEIN engineering, *DNA, *DNA sequencing, *DNA primers, *MUTANT proteins, *ORGANIC solvents, *GENE amplification

Abstract

In this study, we have established a convenient and efficient approach named Modification of DNA Regions with Metagenomic DNA Fragments (MDRMDF) for protein engineering. Degenerate primers were designed corresponding to conserved regions of the gene of interest which were used for amplification of fragments with template of the metagenomic DNA. The resulting PCR products were used to replace the corresponding regions of the gene of interest to introduce modified gene for function-based screening. Therefore, this method can make full use of the metagenomic DNA sequences with unknown metagenomic gene information for efficient protein engineering. The β-xylosidase BH3683 was used to construct a MDRMDF library which was screened with a newly designed p- NPX-M9 medium-based strategy. As a result, a mutant protein Xyl-M56 showing high activity, improved pH stability and higher tolerance to organic solvents was obtained which may have potential for industrial application. The MDRMDF method may find wide application in enzyme engineering, metabolic engineering and other fields, especially offering a new methodological option for the directed evolution of proteins. [Display omitted] • A novel MDRMDF approach has been established for protein engineering. • An p- NPX-M9 medium-based method was designed for screening of β-xylosidase activity. • A mutant protein with improved characteristics was obtained for efficient catalysis. [ABSTRACT FROM AUTHOR]

Published

2021

8. A Shotgun Metagenomic Sequencing Exploration of Cabernet Sauvignon Grape Must Reveals Yeast Hydrolytic Enzymes.

Author

Ghosh, S., Divol, B., and Setati, M. E.

Subjects

*HYDROLASES, *SHOTGUN sequencing, *CABERNET wines, *BOTRYTIS cinerea, *GRAPES

Abstract

Shotgun sequencing was employed to explore the community structure (phylotyping of rRNA genes) and functional potential of Cabernet Sauvignon grape must microbiome. A metagenomic library, representing 92.6 Mb of genetic information, was generated from DNA obtained from Cabernet Sauvignon grape must. Fungi were identified as the dominant domain (59.5%) followed by Streptophyta (39%). Among the 84 fungal species, 22 were yeasts of various genera. Additionally, grapevine endophytes such as Davidiella sp., Botryotinia fuckeliana, Alternaria sp., and Cladosporium sp. were identified. An unusually high prevalence of Mucor spp. was evidenced. Functional annotation revealed sequences of genes involved in metabolism (35.6%), followed by poorly characterized categories (28.3%), cellular processes and signalling (18.4%), and finally information storage (17.8%). Among the former, glycosidases were abundant followed by glycogen debranching enzyme, 6-phosphofructokinase and trehalose-6-phosphate synthase. Furthermore, the taxonomic analysis of the functional sequence data exhibited the eukaryotic gene pool that predominantly contains sequences derived from Streptophyta (mainly Vitis vinifera) 60% > Ascomycota (32%) > Basidiomycota (5%) > Bacteria (2.5%). Finally, sequences of a variety of hydrolytic enzymes of potential oenological relevance were retrieved, thereby confirming that grape juice is a rich reservoir for valuable biocatalysts that should be explored further. [ABSTRACT FROM AUTHOR]

Published

2021

9. Molecular detection and characterization of bacteria from CSF samples of patients with suspected cerebrospinal meningitis in parts of northern Nigeria using metagenomic DNA extracts.

Author

Peletiri, I. C., Ikeh, E. I., Ayanbimpe, G. M., and Nna, E.

Subjects

*METAGENOMICS, *STREPTOCOCCUS pneumoniae, *MENINGITIS, *BACTERIAL meningitis, *DNA, *GRAM'S stain, *ANTIBIOTICS

Abstract

Background: The most commonly used approaches for detection and characterization of bacterial pathogens of meningitis in developing countries include culture, Gram stain, and latex agglutination. The positivity rate of culture is relatively low due to suboptimal storage and transportation conditions, culture practice, and/or antibiotic treatment administered before specimens are collected. Specimens that yield no growth in culture can still be analyzed using molecular methods, and metagenomic DNA (mDNA) extracted directly from clinical samples (CSF) can be used. We aimed to detect and characterize three major bacterial causes of cerebrospinal meningitis (CSM); Neisseria meningitidis, Haemophilus influenzae, and Streptococcus pneumoniae using mDNA extracted directly from CSF samples. Methodology: Metagenomic DNA templates were prepared directly from CSF specimens collected from 210 patients with suspected CSM. A multiplex Real Time PCR (mRT-PCR) using the ABI StepOne Plus Machine and Taqman Probe chemistry was used in the molecular detection, while serogroup/serotype-specific singleplex RT-PCR was used to characterize all positives samples. Results: Eighty-eight (41.9%) of the 210 samples were positive with the mRT-PCR assay for one or a combination of two of the three bacteria. Of these, 59 (67.1%) were N. meningitidis, 2 (2.3%) were H. influenzae, 3 (3.4%) were S. pneumoniae, 15 (17 %) had co-infections of N. meningitidis with H. influenzae, and 9 (10.2%) had co-infections of H. influenzae and S. pneumoniae. The serogroups of N. meningitidis encountered were A (13.5%), B (23%), C (8.1%), W135 (8.1%), X (5.4%), Y (32.4%), and non-groupable (9.5%). The serotypes of H. influenzae were Hia (3.8%), Hib (57.7%), Hic (3.85%), Hie (11.5%) and Hif (23.1%). The serotypes of S. pneumoniae were Wxy1 (8.3%), Wxy4 (33.3%), Wxy5 (50.0%), and Wxy9 (8.3%). Conclusion: Multiplex RT-PCR is a fast and accurate method for detecting and characterizing serogroups/serotypes of major bacteria implicated in CSM. Isolating DNA directly from CSF improves turnaround time, which will speed up patient care and management. [ABSTRACT FROM AUTHOR]

Published

2021

10. 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

11. Phylogenetic identification and metabolic potential of bacteria isolated from deep sea sediments of Bay of Bengal and Andaman Sea.

Author

Padmanaban, Vishnu Priya, Verma, Pankaj, Gopal, Dharani, Sekar, Ashok Kumar, and Ramalingam, Kirubagaran

Subjects

*BACTERIA phylogeny, *BACTERIAL metabolism, *MARINE sediments

Abstract

Deep sea is an extreme environment which harbours diverse microbial communities. The deep sea ecosystem of the northeastern part of Indian Ocean is poorly studied. In this study, to explore the bacterial diversity of the unexplored environment, we designed culture independent (denaturant gradient gel electrophoresis DGGE) and culture dependent (16S rDNA) methods. The samples for this study were taken from the depths of 1850 m off Barren Island of the Andaman Sea, and 2000 and 1400 m off Chennai and Cudallore of the Bay of Bengal. The phylogenetic analysis, based on 16S rDNA sequence data, has suggests their affiliation to three major phyla viz. Firmicutes (48%), Proteobacteria (30%, alpha and gamma-class) and Actinobacteria (22%). Bacillus was the most frequently isolated genus. This is the first report on the isolation of Brucella, Fictibacillus, Mesorhizobium and Cobetia spp. from deep sea sediments. Eleven of the 34 operational taxonomic units probably represents new species. To investigate the metabolic potential, the isolates were screened for production of the extracellular hydrolytic enzyme and antibacterial compound. Almost 91% of isolates showed production of at least one of the extracellular hydrolytic enzymes, such as caesinase, alpha-amylase, urease, gelatinase, lipase and DNase. Streptomyces was the only genus which showed antibacterial activity. This study highlights that the examined deep sea environment could be a hot spot for microbial derived natural products. [ABSTRACT FROM AUTHOR]

Published

2019

12. Application of Environmental DNA Resources to Create Useful DNA Polymerases with Different Properties

Author

Ishino, Sonoko, Ishino, Yoshizumi, Anil Prakash, Satyanarayana, T., editor, and Johri, Bhavdish Narain, editor

Published

2012

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

Author

Sara C. Silvério, Andréia O. Santos, Joana Lúcia Lima Correia Rodrigues, Lígia R. Rodrigues, Ângela Maria Araújo Costa, Eduardo J. Gudiña, Joana Sousa, and Universidade do Minho

Subjects

Metagenomic dna, Humic acids, Improved method, engineering.material, complex mixtures, 7. Clean energy, Applied Microbiology and Biotechnology, 03 medical and health sciences, 030304 developmental biology, Mathematics, 2. Zero hunger, 0303 health sciences, Science & Technology, 030306 microbiology, Compost, Extraction (chemistry), General Medicine, Lignocellulosic, Pulp and paper industry, Metagenomic DNA, 13. Climate action, Metagenomics, engineering, Activated charcoal, Biotechnology

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 (>\thinspace99\\% of humic acids effectively removed) and sufficient quantity (10.5--13.8 \textmug g1 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., This study was supported by the Portuguese Foundation for Science and Technology (FCT) under the scope of the strategic funding of UIDB/04469/2020 unit and the Project LIG-NOZYMES—Metagenomics approach to unravel the potential of lignocellulosic residues towards the discovery of novel enzymes (POCI-01–0145-FEDER-029773)., info:eu-repo/semantics/publishedVersion

Published

2021

14. Probe-mining of endo-1,4-beta-xylanase from goats-rumen bacterial metagenomic DNA data

Author

Dao Trong Khoa, Truong Nam Hai, and Do Thi Huyen

Subjects

Beta Xylanase, Rumen, Biochemistry, Chemistry, Metagenomic dna

Abstract

Endo-1,4-beta-xylanases (xylanases) are classified into 9 glycoside hydrolase families, GH5, 8, 10, 11, 30, 43, 51, 98, and 141 based on the CAZy database. The probe sequences representing the enzymes were constructed from published sequences of actual experimental studies with xylan decomposition activity. From online databases, we found one sequence belonging to the GH5 family, 6 sequences belonging to the GH8 family and 5 sequences belonging to the GH30 family exhibiting xylanase activity. Thus specific probes for xylanase GH8 and GH30 families were designed with the length of 351 and 425 amino acids respectively. The reference values for the probe of the GH8 family were defined as the sequences with maximum score greater than 168, the lowest coverage was 84%, the lowest similarity was 36%; for the probe GH30, the maximum score was greater than 316, the coverage was greater than 98%, the similarity was greater than 41%. Using the built probes, including the probe of the two GH10 and GH11 families, we found 41 xylanase-encoding sequences from the metagenomic DNA data of bacteria in Vietnamese goats’rumen. Of the 41 exploited sequences, 19 were identical to the BGI company's annotation result based on KEGG database, whereas there were 16 sequences that are not annotated by the BGI company. Total 28 of 41 exploited sequences were complete open reading frames, of which the predicted ternary structure was highly similar to the published structures of xylanase.

Published

2021

15. Effect of metal ions and chemical agents on the activity of endoglucanase GH5 exploited from goats-rumen bacterial metagenomic DNA data

Author

Ha Thi Thuy Hoa, Do Thi Huyen, Nguyen Khanh Hoang Viet, and Truong Nam Hai

Subjects

inorganic chemicals, Rumen, Biochemistry, biology, Chemistry, Metagenomic dna, Metal ions in aqueous solution, Chemical agents, biology.protein, Cellulase

Abstract

A gene coding for GH5 endoglucanase exploited from metagnomic DNA data of bacteria in Vietnamese goats’ rumen was modularity structure including a catalytic module, a fibronectin-3 like module and an X module. The recombinant enzyme was sucessfully expressed in E. coli and purified. To study the effect of some metal ions and chemicals on enzyme activity, in this study, we used some tools including Swiss-Prot, ProFunc, COFACTOR for prediction of enzyme structure and ligands interaction. The obtained results indicated that the most similar structure with enzyme had two conserved residues (Asp-190 và Asp-192) linked with Mn2+ within a radius of ~ 3.5 Å from the center of ion Mn2+ and enzyme molecule contained a disulphide bond. Experimental results for essessment of the effect of some metal ions (Ca2 +, Mn2 +, Mg2+, Ni2+, K+, Co2+, Cu2+, Zn2+, Fe3+) at the final concentration of 10 mM and of six common chemicals including SDS (1%), urea (1 µM), 2-mercaptoethanol (1 µM), EDTA (1 µM), tween 80 (1mM), triton X-100 (1 µM) showed that only Mn2+ increased enzyme activity slightly at concentration of 10 mM and two times at the concentration of 40 mM Mn2+. The Mn2+ has been identified as a specific binding agent may increase the stability and activity of endoglucanase GH5.

Published

2021

16. Community Structure and Diversity of Rhizosphere Soil and Endophytic Bacteria during the Period of Growth of Moso Bamboo Shoots.

Author

Yuan Z, Liu F, Zeng ZH, and Pan H

Subjects

Humans, Rhizosphere, Poaceae microbiology, Soil, Cyanobacteria

Abstract

Background: The purpose of this study was to elucidate the community structure of rhizosphere soil bacteria and endophytic bacteria during the growth of moso bamboo ( Phyllostachys edulis ) shoots., Methods: This study collected the rhizospheric soil samples, tissue samples of rhizome roots, shoot buds, winter bamboo shoots, spring bamboo shoots, and samples of forest soil. Their metagenomic DNA was extracted, and the bacterial community structure and diversity characteristics were compared and analyzed using high-throughput sequencing technology., Results: These samples enabled the identification of 32 phyla, 52 classes, 121 orders, 251 families, and 593 genera of bacteria. The phyla primarily included Proteobacteria, Acidobacteria, and Cyanobacteria among others. Proteobacteria was the dominant phylum in the samples of bamboo shoots and rhizome roots, whereas Acidobacteria was dominant in the rhizosphere and forest soil samples. The predominant genera of the rhizome root samples were Acidothermus , Bradyrhizobium and Acidobacterium , and the predominant genera of the soil samples were Acidothermus and Acidobacterium ., Conclusions: This study preliminarily revealed the regularity between the growth and development of bamboo shoots and the changes in the community structure of rhizosphere soil and endophytic bacteria, which provides insights into the relationship between growth and the bacterial community structure in different stages of bamboo shoots., Competing Interests: The authors declare no conflict of interest., (© 2023 The Author(s). Published by IMR Press.)

Published

2023

17. Bacterial and fungal composition profiling of microbial based cleaning products.

Author

Subasinghe, R.M., Samarajeewa, A.D., Meier, M., Coleman, G., Clouthier, H., Crosthwait, J., Tayabali, A.F., Scroggins, R., Shwed, P.S., and Beaudette, L.A.

Subjects

*COMPOSITION of bacteria, *COMPOSITION of fungi, *HOUSEHOLDS, *BACTERIAL colonies, CLEANING compound labeling

Abstract

Microbial based cleaning products (MBCPs) are a new generation of cleaning products that are gaining greater use in household, institutional, and industrial settings. Little is known about the exact microbial composition of these products because they are not identified in detail on product labels and formulations are often proprietary. To gain a better understanding of their microbial and fungal composition towards risk assessment, the cultivable microorganisms and rDNA was surveyed for microbial content in five different MBCPs manufactured and sold in North America. Individual bacterial and fungal colonies were identified by ribosequencing and fatty acid methyl ester (FAME) gas chromatography. Metagenomic DNA (mDNA) corresponding to each of the products was subjected to amplification and short read sequencing of seven of the variable regions of the bacterial 16S ribosomal DNA. Taken together, the cultivable microorganism and rDNA survey analyses showed that three of the products were simple mixtures of Bacillus species. The two other products featured a mixture of cultivable fungi with Bacilli , and by rDNA survey analysis, they featured greater microbial complexity. This study improves our understanding of the microbial composition of several MBCPs towards a more comprehensive risk assessment. [ABSTRACT FROM AUTHOR]

Published

2018

18. 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

19. Fractions of traditionally brewed rice beverage relieve anxiety and improve spatial memory in mice

Author

Mojibur R. Khan, Bhuwan Bhaskar, and Atanu Adak

Subjects

0301 basic medicine, Behavior, Microbial diversity, Metagenomic dna, Nutrition. Foods and food supply, North east, Fermented beverage, Health benefits, Biology, Anxiety, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Spatial memory, Anthropology, Metabolite profiling, Behavioral study, medicine, TX341-641, Food science, medicine.symptom, 030217 neurology & neurosurgery, Food Science

Abstract

Rice beverages are traditionally prepared and consumed popularly by the different ethnic groups of North East India and claimed to have several health benefits. In an attempt to validate the traditional claims, effects of different fractions of the beverage were studied using mouse model. To investigate its effects on behavior, mice were treated with different fractions of rice beverage that included the beverage as a whole, insoluble and soluble fractions. Intragastric treatments of these fractions were given to the mice (n = 6 per group) for 30 days, and behavioral studies were performed on elevated plus and Y maze to evaluate anxiety and spatial memory, respectively. Next-generation sequencing of metagenomic DNA of the beverage indicated the presence of 157 OTUs, and 26 bacterial genera were dominant with an abundance of 0.1%. The insoluble fraction and the whole beverage treatments reduced the anxiety-like symptoms in animals indicating the probable role of microbes. Spatial memory improved in all the treatments compared to the control, of which the rice beverage treatment showed the highest levels (p < 0.05). Gas chromatography and mass spectroscopy-based metabolite profiling of the beverage revealed 10 alcohols, 29 sachharides, 43 acids, and 13 amino acids. Findings of this study suggest a positive effect of rice beverage on anxiety and spatial memory of mice, justifying the claims by ethnic communities on its role on mood regulation.

Published

2021

20. Faecal microbiota composition is related to response to CDK4/6-inhibitors in metastatic breast cancer: A prospective cross-sectional exploratory study.

Author

Schettini, Francesco, Fontana, Alessandra, Gattazzo, Federica, Strina, Carla, Milani, Manuela, Cappelletti, Maria Rosa, Cervoni, Valeria, Morelli, Lorenzo, Curigliano, Giuseppe, Iebba, Valerio, and Generali, Daniele

Subjects

*DRUG efficacy, *RESEARCH, *SEQUENCE analysis, *PROTEIN kinase inhibitors, *GUT microbiome, *CROSS-sectional method, *CYCLIN-dependent kinases, *BREAST tumors, *HORMONE receptor positive breast cancer, *LONGITUDINAL method

Abstract

Cyclin-dependent kinase (CDK)4/6-inhibitors with endocrine therapy represent the standard of treatment of hormone receptor-positive(HR+)/human epidermal growth factor receptor 2 (HER2)-negative metastatic breast cancer (MBC). Gut microbiota seems to predict treatment response in several tumour types, being directly implied in chemotherapy resistance and development of adverse effects. No evidence is available on gut microbiota impact on efficacy of HR+ breast cancer treatment. We assessed the potential association among faecal microbiota and therapeutic efficacy of CDK4/6-inhibitors on 14 MBC patients classified as responders (R) and non-responders (NR) according to progression-free survival. A stool sample was collected at baseline and V3–V4 16S targeted sequencing was employed to assess its bacterial composition. Statistical associations with R and NR were studied. No significant differences were observed between R and NR in terms of α-/β-diversity at the phylum and species level. Machine-learning (ML) algorithms evidenced four bacterial species as a discriminant for R (Bifidobacterium longum , Ruminococcus callidus) and NR (Clostridium innocuum , Schaalia odontolytica), and an area under curve (AUC) of 0.946 after Random Forest modelling. Network analysis evidenced two major clusters of bacterial species, named Species Interacting Groups (SIG)1–2, with SIG1 harbouring 75% of NR-related bacterial species, and SIG2 regrouping 76% of R-related species (p < 0.001). Cross-correlations among several patients' circulating immune cells or biomarkers and bacterial species' relative abundances showed associations with potential prognostic implications. Our results provide initial insights into the gut microbiota involvement in sensitivity and/or resistance to CDK4/6-inhibitors + endocrine therapy in MBC. If confirmed in larger trials, several microbiota manipulation strategies might be hypothesised to improve response to CDK4/6-inhibitors. • Fourteen patients with luminal MBC were treated with CDK4/6-inhibitors(i). • Baseline faecal bacterial composition was analysed for responders and non-responders. • Four faecal bacterial species collectively predicted (AUC = 0.95) response to CDK4/6i. • Two major clusters of interacting species with opposite predictive role were found. • Two clusters with opposite correlations with circulating immune biomarkers were found. [ABSTRACT FROM AUTHOR]

Published

2023

21. 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

22. 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

23. Comparison of Metagenomic DNA Extraction Methods for Soil Sediments of High Elevation Puga Hot Spring in Ladakh, India to Explore Bacterial Diversity.

Author

Gupta, Puneet, Manjula, A., Rajendhran, J., Gunasekaran, P., and Vakhlu, Jyoti

Subjects

*NUCLEIC acid isolation methods, *HOT springs, *BACTERIAL diversity, *HUMIC acid, *METAGENOMICS

Abstract

Extraction of good-quality metagenomic DNA from extreme environments is quite challenging, particularly from high elevation hot spring sediments. Low microbial load, high humic acid content and other contaminants complicate the process of extraction of metagenomic DNA from hot spring sediments. In the present study, efficacy of five manual DNA extraction protocols with modifications has been evaluated for metagenomic DNA extraction from boron–sulfur rich high elevation Puga hot spring sediments. Best suited protocol was identified based on the cell lysis efficiency, DNA yield, humic acid content, PCR reproducibility and representation of bacterial diversity. Quantity as well as quality of crude metagenomic DNA differed remarkably between various protocols used and were not pure enough to give PCR amplification using 16S rRNA bacterial and archaeal primers. Crude metagenomic DNA extracted using five different DNA extraction protocols was purified using spin column based purification method. Even after purification, only three protocols C, D and E yielded metagenomic DNA that could be amplified using both archaeal and bacterial primers. To evaluate the degree of microbial diversity represented by protocols C, D and E, phylogenetic genes amplified were subjected to amplified ribosomal DNA restriction analysis (ARDRA) and denaturing gradient gel electrophoresis analysis (DGGE) analysis. ARDRA banding pattern of amplicons generated for all the three extraction protocols, i.e., C, D and E were found to be similar. DGGE of protocol E derived amplicons resulted in the similar number of dominant bands but a greater number of non-dominant bands, i.e., the highest microbial diversity in comparison to protocols C and D, respectively. In the present study, protocol E developed from Yeates et al. protocol has been found to be best in terms of DNA yield, DNA purity and bacterial diversity depiction associated with boron–sulfur rich sediment of high elevation hot springs. [ABSTRACT FROM PUBLISHER]

Published

2017

24. Evaluation of the Effects of Library Preparation Procedure and Sample Characteristics on the Accuracy of Metagenomic Profiles

Author

Thomas J. Sharpton, Brett M. Tyler, Rebecca Vega Thurber, Emily R. Schmeltzer, Christopher A. Gaulke, and Mark Dasenko

Subjects

Future studies, Physiology, Metagenomic dna, Computer science, Sample (material), Library preparation, microbiome, Computational biology, Biochemistry, Microbiology, DNA sequencing, soil, Preparation method, Community type, Genetics, Molecular Biology, coral, Ecology, Evolution, Behavior and Systematics, metagenomics, QR1-502, Computer Science Applications, Metagenomics, Modeling and Simulation, gut, next-generation sequencing, library preparation, Research Article

Abstract

Shotgun metagenomic sequencing has transformed our understanding of microbial community ecology. However, preparing metagenomic libraries for high-throughput DNA sequencing remains a costly, labor-intensive, and time-consuming procedure, which in turn limits the utility of metagenomes. Several library preparation procedures have recently been developed to offset these costs, but it is unclear how these newer procedures compare to current standards in the field. In particular, it is not clear if all such procedures perform equally well across different types of microbial communities or if features of the biological samples being processed (e.g., DNA amount) impact the accuracy of the approach. To address these questions, we assessed how five different shotgun DNA sequence library preparation methods, including the commonly used Nextera Flex kit, perform when applied to metagenomic DNA. We measured each method’s ability to produce metagenomic data that accurately represent the underlying taxonomic and genetic diversity of the community. We performed these analyses across a range of microbial community types (e.g., soil, coral associated, and mouse gut associated) and input DNA amounts. We find that the type of community and amount of input DNA influence each method’s performance, indicating that careful consideration may be needed when selecting between methods, especially for low-complexity communities. However, the cost-effective preparation methods that we assessed are generally comparable to the current gold-standard Nextera DNA Flex kit for high-complexity communities. Overall, the results from this analysis will help expand and even facilitate access to metagenomic approaches in future studies. IMPORTANCE Metagenomic library preparation methods and sequencing technologies continue to advance rapidly, allowing researchers to characterize microbial communities in previously underexplored environmental samples and systems. However, widely accepted standardized library preparation methods can be cost-prohibitive. Newly available approaches may be less expensive, but their efficacy in comparison to standardized methods remains unknown. In this study, we compared five different metagenomic library preparation methods. We evaluated each method across a range of microbial communities varying in complexity and quantity of input DNA. Our findings demonstrate the importance of considering sample properties, including community type, composition, and DNA amount, when choosing the most appropriate metagenomic library preparation method.

Published

2021

25. Direct Cloning of a Xylanase Gene from Pawan-Riau Hot Spring

Author

IS HELIANTI

Subjects

β-1, 4-endoxylanase, metagenomic DNA, Pawan-Riau hot-spring, Biology (General), QH301-705.5

Abstract

A functional gene containing an Open Reading Frame (ORF) encoding a β-1, 4-endoxylanase glycosyl hydrolase family 11 was cloned directly using metagenomic PCR-cloning method from Pawan Hot Spring sample in Riau. The gene consisted of 642 nucleotides, encoded for 213 amino acids. The amino acid sequence analysis using BLAST showed that the gene has high homology (93%) with xylanase gene from Bacillus subtilis. The gene showed its function when it was subcloned into an expression vector and overexpressed in E. coli. The crude extract of the recombinant enzyme had activity for 170 U/ml at 50 °C. The result of this work showed that metagenomic approach was a powerful short cut method to obtain recombinant biocatalyst that was useful for industrial application.

Published

2007

26. Response of bacterioplankton to iron fertilization of theSouthern Ocean, Antarctica

Author

Sanjay Kumar eSingh, Arunasri eKotakonda, Raj Kishor eKapardar, Hara Kishore eKankipati, Sreenivasa Rao ePasupuleti, Pratibha Shankaranarayanan Mambatta, Sundareswaran Raman Vetaikorumagan, Sathyanarayana Reddy eGundlapally, Ramaiah eNagappa, and Sisinthy eShivaji

Subjects

Southern Ocean, iron fertilization, Metagenomic DNA, Major phylogenetic groups, unique bacterial clusters, Microbiology, QR1-502

Abstract

Ocean iron fertilization is an approach to increase CO2 sequestration. The Indo-German iron fertilization experiment LOHAFEX was carried out in the Southern Ocean surrounding Antarctica in 2009 to monitor changes in bacterial community structure following iron fertilization-induced phytoplankton bloom of the seawater from different depths. 16S rRNA gene libraries were constructed using metagenomic DNA from seawater prior to and after iron fertilization and the clones were sequenced for identification of the major bacterial groups present and for phylogenetic analyses. A total of 4439 clones of 16S rRNA genes from ten 16S rRNA gene libraries were sequenced. More than 97.35% of the sequences represented four bacterial lineages i.e. Alphaproteobacteria, Gammaproteobacteria, Bacteroidetes and Firmicutes and confirmed their role in scavenging of phytoplankton blooms induced following iron fertilization. The present study demonstrates the response of Firmicutes due to Iron fertilization which was not observed in previous southern ocean Iron fertilization studies. In addition, this study identifies three unique phylogenetic clusters LOHAFEX Cluster 1 (affiliated to Bacteroidetes), 2 and 3 (affiliated to Firmicutes) which were not detected in any of the earlier studies on iron fertilization. The relative abundance of these clusters in response to iron fertilization was different. The increase in abundance of LOHAFEX Cluster 2 and Papillibacter sp. another dominant Firmicutes may imply a role in phytoplankton degradation. Disappearance of LOHAFEX Cluster 3 and other bacterial genera after iron fertilization may imply conditions not conducive for their survival. It is hypothesised that heterotrophic bacterial abundance in the Southern Ocean would depend on their ability to utilise algal exudates, decaying algal biomass and other nutrients thus resulting in a dynamic bacterial succession of distinct genera.

Published

2015

27. 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

28. 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

29. Purification of Metagenomic DNA Using Novel Nanocomposite Titanium Dioxide-polyaniline Tin (1V) Antimonophosphate, Insights into the Mechanism Underlying Purification Process

Author

Jaspreet Kaur Boparai, Pushpender Kumar Sharma, Tejwant Singh Kang, Rahul Badru, Sandeep Kaushal, Pritpal Singh, Ramanpreet Kaur, and Gurbir Singh

Subjects

Marketing, Pharmacology, Organizational Behavior and Human Resource Management, Nanocomposite, Materials science, Metagenomic dna, Strategy and Management, Pharmaceutical Science, chemistry.chemical_element, chemistry.chemical_compound, chemistry, Chemical engineering, Scientific method, Drug Discovery, Titanium dioxide, Polyaniline, Tin, Mechanism (sociology)

Published

2019

30. Prevalence of Antibiotic Resistance Genes in Pharmaceutical Wastewaters

Author

Amarachukwu Obayiuwana, A.M. Ibekwe, and A. A. Ogunjobi

Subjects

medicine.drug_class, Tetracycline, Geography, Planning and Development, Antibiotics, Human pathogen, 010501 environmental sciences, Aquatic Science, Biology, 01 natural sciences, Biochemistry, Microbiology, 03 medical and health sciences, Antibiotic resistance, medicine, Antibiotic-resistance genes (ARGs), metagenomic DNA, TD201-500, 030304 developmental biology, 0105 earth and related environmental sciences, Water Science and Technology, pharmaceutical wastewater, 0303 health sciences, metagenomics, Water supply for domestic and industrial purposes, Chloramphenicol, Hydraulic engineering, Metagenomics, Horizontal gene transfer, mobile genetic elements (MGEs), Mobile genetic elements, TC1-978, medicine.drug

Abstract

Pharmaceutical wastewaters are recognized as reservoirs of antibiotic resistance genes (ARGs) and antibiotic resistant bacteria (ARB), and also as hotspots for their horizontal gene transfer (HGT) using mobile genetic elements. Our study employed the use of PCR analysis of metagenomic DNA samples obtained from four pharmaceutical wastewaters using known primers to study the prevalence of thirty-six ARGs and four MGEs active against the commonly used antibiotics in Nigeria. The ARGs most frequently detected from the metagenomic DNA samples in each of the antibiotic classes under study include tetracycline [tet(G)], aminoglycoside [aadA, strA and strB], chloramphenicol [catA1], sulphonamides [sulI and sulII], and β-lactams and penicillins [blaOXA]. The ARGs showed a 100% prevalence in their various environmental sources. The pharmaceutical facility PFIV showed the highest concentration of ARGs in this study. The highest concentration for MGEs was shown by pharmaceutical facility PFIII, positive for intl1, intl2, and IFS genes. This study highlights the wide distribution of ARGs to the antibiotics tested in the wastewater, making pharmaceutical wastewater reservoirs of ARGs which could potentially be transferred from commensal microorganisms to human pathogens.

Published

2021

31. Fractions of traditionally brewed rice beverage ameliorate anxiety and improve spatial memory in mice

Author

Bhuwan Bhaskar, Atanu Adak, and Mojibur R. Khan

Subjects

Anxiety like, Chemistry, Metagenomic dna, Behavioral study, Metabolite profiling, medicine, Anxiety, Food science, North east, medicine.symptom

Abstract

Rice beverages are traditionally prepared and consumed popularly by the different ethnic groups of North East India. To investigate its effects on behavior, mice were treated with different fractions of rice beverage that included the beverage as a whole, insoluble and soluble fractions. Intragastric treatments of these fractions were given to the mice (n=6 per group) for 30 days and behavioral studies were performed on elevated plus and Y maze to evaluate anxiety and spatial memory, respectively. Next generation sequencing of metagenomic DNA of the beverage indicated presence of 157 OTUs and 26 bacterial genera were dominant with an abundance of 0.1%. The insoluble fraction treated animals showed lowest anxiety like symptoms. Spatial memory improved in all the treatments compared to the control, of which the rice beverage treatment showed the highest levels (p

Published

2021

32. Contributions and difficulties of soil metagenomics and its impact on agricultura

Author

Veronica Quintero Hernández, América Paulina Rivera-Urbalejo, Jesús Muñoz Rojas, Yolanda Elizabeth Morales-García, María Rosete Enríquez, Catherine Cesa-Luna, Jose Vazquez, and Daniel Vázquez

Subjects

Emerging technologies, Metagenomic dna, QH301-705.5, Biodiversity, Suelo, soil, agricultura, Biology (General), agriculture, metagenomics, Metagenómica, Bacterias Promotoras del crecimiento PGPR´s, business.industry, suelo, Agricultura, Environmental resource management, PGPR's growth promoting bacteria, Heavy metals, Plant development, inoculants, Geography, Metagenomics, bacterias promotoras del crecimiento PGPR's, metagenómica, Inoculantes, General Agricultural and Biological Sciences, business, inoculantes, Gene Discovery

Abstract

RESUMEN Los microorganismos son de gran interés porque colonizan todo tipo de ambiente, sin embargo, uno de los problemas al que nos enfrentamos para conocer su diversidad biológica es que no todos los microorganismos son cultivables. El desarrollo de nuevas tecnologías como la generación de vectores de clonación aunado al desarrollo de técnicas de secuenciación de alto rendimiento ha favorecido el surgimiento de una nueva herramienta llamada metagenómica, la cual nos permite estudiar genomas de comunidades enteras de microorganismos. Debido a que ningún ambiente es idéntico a otro, es importante mencionar que dependiendo del tipo de muestra a analizar será el tipo de reto al cual nos enfrentaremos al trabajar con metagenómica, en el caso específico del suelo existen diversas variantes como la contaminación del suelo con metales pesados o diversos compuestos químicos que podrían limitar los estudios. Sin embargo, pese a las limitaciones que el mismo ambiente presenta, la metagenómica ha permitido tanto el descubrimiento de nuevos genes como la caracterización de las comunidades microbianas que influyen positivamente en el desarrollo de plantas, lo cual en un futuro podría generar un gran impacto en la agricultura. En este artículo se realizó una revisión de diversas investigaciones que han empleado metagenómica, reportadas en las bases de datos de PudMed y Google Schoolar, con el objetivo de examinar los beneficios y limitaciones de las diversas metodologías empleadas en el tratamiento del ADN metagenómico de suelo y el impacto de la metagenómica en la agricultura. ABSTRACT Microorganisms are of great interest because they colonize all types of environment, however, one of the problems we face in knowing biological diversity is that not all microorganisms are cultivable. The development of new technologies such as the generation of cloning vectors coupled with the development of high performance sequencing techniques, have favored the emergence of a new tool in science called metagenomics, which allows us to study genomes of entire communities. Since all environments are different, the type of challenge that we will face when working with metagenomics is going to change depending of the type of sample, in the specific case of soils, there are several variables, such as soil contamination with heavy metals or chemical compounds that could limit metagenomic studies. However, despite the limitations that the environment presents, with the help of metagenomics, both gene discovery and the characterization of microbial communities that positively influence plant development have been achieved, which could generate a greater impact on agriculture in the future. In this article a review of several investigations that have used metagenomics, reported in the PudMed and Google Schoolar databases was carried out, with the aim of examining the benefits and limitations of the various methodologies used in the treatment of metagenomic DNA from soil and the impact of metagenomics in agriculture.

Published

2021

33. Evaluation of the effects of library preparation procedure and sample characteristics on the accuracy of metagenomic profiles

Author

Brett M. Tyler, Thomas J. Sharpton, Mark Dasenko, Rebecca Vega Thurber, Christopher A. Gaulke, and Emily R. Schmeltzer

Subjects

Low complexity, Community type, Future studies, Metagenomics, Metagenomic dna, Computer science, Sample (material), Library preparation, Computational biology, DNA sequencing

Abstract

Shotgun metagenomic sequencing has transformed our understanding of microbial community ecology. However, preparing metagenomic libraries for high-throughput DNA sequencing remains a costly, labor-intensive, and time-consuming procedure, which in turn limits the utility of metagenomes. Several library preparation procedures have recently been developed to offset these costs, but it is unclear how these newer procedures compare to current standards in the field. In particular, it is not clear if all such procedures perform equally well across different types of microbial communities, or if features of the biological samples being processed (e.g., DNA amount) impact the accuracy of the approach. To address these questions, we assessed how five different shotgun DNA sequence library preparation methods, including the commonly used Nextera® Flex kit, perform when applied to metagenomic DNA. We measured each method’s ability to produce metagenomic data that accurately represents the underlying taxonomic and genetic diversity of the community. We performed these analyses across a range of microbial community types (e.g., soil, coral-associated, mouse-gut-associated) and input DNA amounts. We find that the type of community and amount of input DNA influence each method’s performance, indicating that careful consideration may be needed when selecting between methods, especially for low complexity communities. However, cost-effective preparation methods we assessed are generally comparable to the current gold standard Nextera® DNA Flex kit for high-complexity communities. Overall, the results from this analysis will help expand and even facilitate access to metagenomic approaches in future studies.IMPORTANCEMetagenomic library preparation methods and sequencing technologies continue to advance rapidly, allowing researchers to characterize microbial communities in previously underexplored environmental samples and systems. However, widely-accepted standardized library preparation methods can be cost-prohibitive. Newly available approaches may be less expensive, but their efficacy in comparison to standardized methods remains unknown. In this study, we compared five different metagenomic library preparation methods. We evaluated each method across a range of microbial communities varying in complexity and quantity of input DNA. Our findings demonstrate the importance of considering sample properties, including community type, composition, and DNA amount, when choosing the most appropriate metagenomic library preparation method.

Published

2021

34. High-Throughput Screening of Fosmid Libraries for Increased Identification of Novel N-Acyl Homoserine Lactone Degrading Enzymes.

Author

Uroz S and Oger P

Subjects

4-Butyrolactone metabolism, High-Throughput Screening Assays methods, Ecosystem, Acyl-Butyrolactones, Quorum Sensing

Abstract

Functional metagenomics is an essential and effective approach to recover new enzymes from the environment. In this chapter, we describe a procedure to construct metagenomic library to discover new N-acyl homoserine lactone (AHL) degrading enzymes based on a direct method or an indirect enrichment procedure. Applicable to any bacterial ecosystem, it enables rapid identification of functional enzymes effective to degrade AHLs., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

35. Construction of Small-Insert and Large-Insert Metagenomic Libraries.

Author

Simon C and Daniel R

Subjects

Gene Library, Biodiversity, Plasmids genetics, Metagenomics methods, Metagenome

Abstract

The vast majority of the Earth's biological diversity are hidden in uncultured and yet uncharacterized microbial genomes. The construction of metagenomic libraries is one cultivation-independent molecular approach to assess this unexplored genetic reservoir. High numbers of novel biocatalysts have been identified by function-based or sequence-based screening of metagenomic libraries derived from various environments. Here, we describe detailed protocols for the construction of metagenomic small-insert and large-insert libraries in plasmids and fosmids, respectively, from environmental DNA., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

36. Functional and Sequence-Specific Screening Protocols for the Detection of Novel Antimicrobial Resistance Genes in Metagenomic DNA.

Author

Tansirichaiya S, Hutton W, and Roberts AP

Subjects

Animals, Humans, Drug Resistance, Bacterial genetics, Metagenomics, DNA, Anti-Bacterial Agents pharmacology, Anti-Infective Agents pharmacology

Abstract

Antimicrobial resistance (AMR) is an increasingly important global challenge for healthcare systems as well as agricultural food production systems. Our ability to prepare for, and respond to, emerging AMR threats is dependent on our knowledge of genes able to confer AMR that are circulating within various environmental, animal, and human microbiomes. Targeted, sequence-specific, detection of AMR genes and functional resistance assays, described here, carried out on metagenomic DNA gives us unique insights into the presence of AMR genes and how these are associated with mobile genetic elements that may be responsible for their dissemination and can also provide important information about the mechanisms of resistance underpinning the phenotype., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

37. Rapid and simple DNA extraction protocol from goat rumen digesta for metagenomic analysis.

Author

Bashir, Yasir, Rather, Irfan A., and Konwar, B. K.

Abstract

In contrast to the traditional culturing techniques and microscopy that have led to the identification and characterization of only about 15-20% of the rumen microbes till date, nucleic acid-based molecular approaches are rapid, reproducible, and allow both the qualitative and quantitative assessment of microbial diversity. The aim of this study was to develop a simple, rapid and effective extraction protocol for the recovery of high-molecular-weight and cloneable metagenomic DNA (mDNA) from goat rumen contents. An efficient method was devised to isolate highmolecular- weight mDNA (>23kb) that was pure and cloneable after isolation in a relatively short period (3.5 h). This is the first report wherein purification of isolated mDNA could be passed. The purity and cloneability of mDNA was found to be possible with the successful restriction digestion, 16S rDNA PCR amplification of the isolated mDNA and mDNA library construction. The screening of 1600 clones from the metagenomic library revealed one clone with adistinct hydrolytic activity on carboxymethyl cellulose (CMC) agar suggesting its endoglucanase activity. Agarose gel electrophoresis showed aDNA insert of ~1.5kb size on digestion with BamH 1. The metagenomic clones offer a prodigious non-conventional means to explore the genetically untapped resources from nature. [ABSTRACT FROM AUTHOR]

Published

2015

38. 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

39. Cold shock induction of recombinant Arctic environmental genes.

Author

Bjerga, Gro Elin Kjæreng and Williamson, Adele Kim

Subjects

*COLD shock proteins, *PROTEIN expression, *CHITINASE, *PSYCHROPHILIC bacteria, *BACTERIAL genetics, *ESCHERICHIA coli

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 lowtemperature 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. [ABSTRACT FROM AUTHOR]

Published

2015

40. Response of bacterioplankton to iron fertilization of the Southern Ocean, Antarctica.

Author

Singh, Sanjay K., Kotakonda, Arunasri, Kapardar, Raj K., Kankipati, Hara Kishore, Rao, Pasupuleti Sreenivasa, Sankaranarayanan, Pratibha Mambatta, Vetaikorumagan, Sundareswaran R., Gundlapally, Sathyanarayana Reddy, Nagappa, Ramaiah, Shivaji, Sisinthy, Strous, Marc, and Yuejin Hua

Subjects

BACTERIOPLANKTON, IRON fertilizers

Abstract

Ocean iron fertilization is an approach to increase CO2 sequestration. The Indo-German iron fertilization experiment "LOHAFEX" was carried out in the Southern Ocean surrounding Antarctica in 2009 to monitor changes in bacterial community structure following iron fertilization-induced phytoplankton bloom of the seawater from different depths. 16S rRNA gene libraries were constructed using metagenomic DNA from seawater prior to and after iron fertilization and the clones were sequenced for identification of the major bacterial groups present and for phylogenetic analyses. A total of 4439 clones of 16S rRNA genes from ten 16S rRNA gene libraries were sequenced. More than 97.35% of the sequences represented four bacterial lineages i.e. Alphaproteobacteria, Gammaproteobacteria, Bacteroidetes, and Firmicutes and confirmed their role in scavenging of phytoplankton blooms induced following iron fertilization. The present study demonstrates the response of Firmicutes due to Iron fertilization which was not observed in previous southern ocean Iron fertilization studies. In addition, this study identifies three unique phylogenetic clusters LOHAFEX Cluster 1 (affiliated to Bacteroidetes), 2, and 3 (affiliated to Firmicutes) which were not detected in any of the earlier studies on iron fertilization. The relative abundance of these clusters in response to iron fertilization was different. The increase in abundance of LOHAFEX Cluster 2 and Papillibacter sp. another dominant Firmicutes may imply a role in phytoplankton degradation. Disappearance of LOHAFEX Cluster 3 and other bacterial genera after iron fertilization may imply conditions not conducive for their survival. It is hypothesized that heterotrophic bacterial abundance in the Southern Ocean would depend on their ability to utilize algal exudates, decaying algal biomass and other nutrients thus resulting in a dynamic bacterial succession of distinct genera. [ABSTRACT FROM AUTHOR]

Published

2015

41. Cold shock induction of recombinant Arctic environmental genes.

Author

Kjæreng Bjerga, Gro Elin and Williamson, Adele Kim

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 lowtemperature 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. [ABSTRACT FROM AUTHOR]

Published

2015

42. Normalization of environmental metagenomic DNA enhances the discovery of under-represented microbial community members.

Author

Ramond, J.‐B., Makhalanyane, T.P., Tuffin, M.I., and Cowan, D.A.

Subjects

*METAGENOMICS, *GENE expression, *DNA fingerprinting, *POLYMERASE chain reaction, *MICROBIAL ecology, *NUCLEASES

Abstract

Normalization is a procedure classically employed to detect rare sequences in cellular expression profiles (i.e. c DNA libraries). Here, we present a normalization protocol involving the direct treatment of extracted environmental metagenomic DNA with S1 nuclease, referred to as normalization of metagenomic DNA: Nm DNA. We demonstrate that Nm DNA, prior to post hoc PCR-based experiments (16S rRNA gene T- RFLP fingerprinting and clone library), increased the diversity of sequences retrieved from environmental microbial communities by detection of rarer sequences. This approach could be used to enhance the resolution of detection of ecologically relevant rare members in environmental microbial assemblages and therefore is promising in enabling a better understanding of ecosystem functioning. Significance and Impact of the Study This study is the first testing 'normalization' on environmental metagenomic DNA (m DNA). The aim of this procedure was to improve the identification of rare phylotypes in environmental communities. Using hypoliths as model systems, we present evidence that this post-mDNA extraction molecular procedure substantially enhances the detection of less common phylotypes and could even lead to the discovery of novel microbial genotypes within a given environment. [ABSTRACT FROM AUTHOR]

Published

2015

43. Predominance of Bacillus sp. in soil samples of the southern regions of Western Ghats, India.

Author

Vasudevan, Gowdaman, Siddarthan, Venkatachalam, and Solai Ramatchandirane, Prabagaran

Abstract

The aim of this study was to determine the bacterial diversity in soils of the southern region of the Western Ghats, a 'biodiversity hotspot', and thereby futher our understanding of the microbial communities in this ecological niche. The diversity and phylogeny of bacterial populations in soil samples collected from various locations of the Tamil Nadu and Kerala regions of Western Ghats were compared using both cultivation-dependent and cultivation-independent methods. A total of 171 bacterial strains were isolated based on their morphological characteristics and their diversity indices calculated. The distinctive amplified ribosomal DNA restriction analysis (ARDRA) pattern of each isolate was determined, and representative isolates were then subjected to 16S rRNA gene sequencing. On the basis of their sequence similarity, the isolates were distributed among three different genera belonging to Firmicutes (83.3 %), Proteobacteria (8.3 %) and high G+C Gram-positive bacteria (8.3 %). The highest and the lowest values for the diversity indices were obtained for metagenomic DNA extracted from isolates BWGA and BVP, respectively; these were used for 16S rRNA gene library construction and analysis. Based on their phylogenetic analysis, the predominant members of the habitat were found to belong to the phylum Firmicutes (84.62 %). Firmicutes was the dominant bacterial phylum detected by both approaches, but the culture-independent approach detected a considerably higher number of uncultivable bacteria. In conclusion, in our study of the bacterial diversity of this Western Ghats region, we fund that the genus Bacillus was predominant among the samples assessed by both cultivation-dependent and cultivation-independent methods. [ABSTRACT FROM AUTHOR]

Published

2015

44. Unraveling microbial complexities via metagenomic approach: Expanding cross-talk for environment management and prospecting

Author

Ananya Nayak, Swayamprabha Sahoo, Rohan Pawar, Jayashankar Das, Shivani Dave, and Sushma Dave

Subjects

Metabolic engineering, Community level, Metagenomics, Computer science, Metagenomic dna, Microbial metabolism, Identification (biology), Biochemical engineering, Environment management

Abstract

The advent of metagenomics, understanding the microbial in community level has revolutionized the field of microbial biotechnology due to its widespread application including the identification of novel microbes for the wastewater remediation. Metagenomics allows the recovery of genetic material directly from environmental niches and is widely employed as a powerful tool to identify enzymes with novel biocatalytic activities from the uncultivable microbial communities. This modern approach reveals much untold cross-talking and provides new perspectives for environmental management. Advancement of the next generation sequencing and bioinformatics tools not only supplies the knowledge of microbial metabolism but also provides information on genes involved in coding enzymes and valuable pathways of novel microorganisms, which play an important role in the biogeochemical cycles and degradation and detoxification of environmental pollutants. The process exploring pollution sites, construction, and screening of complex metagenomic DNA libraries followed by its application to isolate new enzymes and drugs of industrial importance. The review focused on this indispensable approach and tools used for screening strategies that allow efficient screening of large collections of microbes useful for the microbial prospecting and metabolic engineering.

Published

2021

45. A Standardized Approach for Shotgun Metagenomic Analysis of Ancient Dental Calculus

Author

Laura S. Weyrich and Nicole E. Moore

Subjects

Metagenomic dna, Computer science, medicine.disease, humanities, DNA sequencing, stomatognathic diseases, Oral Microbiota, Ancient DNA, Metagenomics, Research community, Protective gear, Calculus, medicine, Calculus (medicine)

Abstract

Ancient dental calculus provides a challenging, yet unparalleled, opportunity to reconstruct ancient oral microbial communities and trace the origins of modern microbiota-associated diseases. Metagenomic analysis of ancient dental calculus using high-throughput DNA sequencing has proven itself as an effective method to accurately reconstruct microorganisms that once lived in the mouths of ancient humans. Here, we provide the strategy, methodologies, and approaches used to establish an ancient dental calculus project, from project conception, community engagement, sampling, extracting DNA, and preparing shotgun metagenomic DNA libraries for sequencing on an Illumina platform. We also discuss techniques to minimize background or contaminant DNA by monitoring and reducing contamination in calculus data sets, utilizing appropriate protective gear, and employing the use of sample decontamination strategies. In this methodology chapter, we hope to promote transparency in the ancient dental calculus research field and encourage collaboration across the ancient DNA research community.

Published

2021

46. Modified methods obtain high-quality DNA and RNA from anaerobic activated sludge at a wide range of temperatures.

Author

Du, Hongxia, Xie, Haiying, Ma, Ming, Igarashi, Yasuo, and Luo, Feng

Subjects

*RNA, *NUCLEIC acid isolation methods, *HUMUS, *DNA, *ENVIRONMENTAL sampling

Abstract

Anaerobic activated sludge is rich in humic substances and water, leading to significant differences in the stability of metagenomic DNA and metatranscriptomic RNA. Thus, it is of great difficulty to exact high-quality and high-yield DNA and RNA from them, especially those cultured at a wide range of temperatures. Here, we established fast and effective DNA and RNA extraction methods based on current commercial kits. The modified methods combined liquid nitrogen grinding with kits, achieving notable improvements in concentrations, yields, purity and integrities for both DNA and RNA. The ratios of OD260/280 of the metagenomic DNA were between 1.81 ± 0.03 and 1.83 ± 0.02, while OD260/280 and OD260/230 of the metatranscriptomic RNA ranged from 1.96 ± 0.01 to 2.13 ± 0.03 and from 1.94 ± 0.02 to 2.30 ± 0.03 respectively. Metagenomic DNA and metatranscriptomic RNA obtained by the modified methods perfectly met the requirements of second- and third-generation sequencing, providing valuable reference for extracting high-quality metagenomic DNA and metatranscriptomic RNA from environmental samples of high water content and humic substances under temperatures ranging from 18 °C to 52 °C. • Liquid nitrogen grinding combined with kits generated high-quality DNA/RNA. • DNA/RNA extracted improved greatly in concentration, yield, purity and integrity. • The methods are suitable for sludge at a wide range of temperatures. [ABSTRACT FROM AUTHOR]

Published

2022

47. 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

48. Comparative study of methods for extraction and purification of environmental DNA from marine sediment samples.

Author

WANG Xiao-hui, HUANG-LI Shu-xin, BAI Feng-wu, and DU Yu-guang

Published

2014

49. An efficient and economical method for extraction of DNA amenable to biotechnological manipulations, from diverse soils and sediments.

Author

Sharma, S., Sharma, K.K., and Kuhad, R.C.

Subjects

*DNA, *COMPOSTING, *HUMIC acid, *NUCLEIC acid isolation methods, *ACTIVATED carbon, *CHARCOAL

Abstract

Aims An attempt was made to optimize a new protocol for isolation of pure metagenomic DNA from soil samples. Methods and Results Various chemicals ( Fe Cl3, Mg Cl2, Ca Cl2 and activated charcoal) were tested for their efficacy in isolation of metagenomic DNA from different soil and compost samples. Among these trials, charcoal and Mg Cl2 when used in combination yielded highly pure DNA free from humic acids and other contaminants. The DNA extracted with the optimized protocol was readily digested, amplified and cloned. Moreover, compared with a well-established commercial DNA isolation kit ( Ultra Clean™ Soil DNA Isolation Kit), our method for DNA isolation was found to be economical. This demonstrated that the method developed can be applied to a wide variety of soil samples and allows handling of multiple samples at a given time. Conclusions The optimized protocol developed has successfully yielded pure metagenomic DNA amenable to biotechnological manipulations. Significance and Impact of the Study A user-friendly and economical protocol for isolation of DNA from soil and compost samples has been developed. [ABSTRACT FROM AUTHOR]

Published

2014

50. Assessment of five soil DNA extraction methods and a rapid laboratory-developed method for quality soil DNA extraction for 16S rDNA-based amplification and library construction.

Author

Sagar, Kalpana, Singh, Salam Pradeep, Goutam, Kapil Kumar, and Konwar, Bolin Kumar

Subjects

*SOIL composition, *NUCLEIC acid isolation methods, *RECOMBINANT DNA, *SOIL sampling, *POLYMERASE chain reaction, *METAGENOMICS

Abstract

Abstract: Extraction of DNA from soil samples using standard methods often results in low yield and poor quality making them unsuitable for community analysis through polymerase chain reaction (PCR) due to the formation of chimeric products with smaller template DNAs and the presence of humic substances. The present study focused on the assessment of five different methods for metagenomic DNA isolation from soil samples on the basis of processing time, purity, DNA yield, suitability for PCR, restriction digestion and mDNA library construction. A simple and rapid alkali lysis based on indirect DNA extraction from soil was developed which could remove 90% of humic substances without shearing the DNA and permits the rapid and efficient isolation of high quality DNA without the requirement of hexadecyltrimethylammonium bromide and phenol cleanup. The size of DNA fragment in the crude extracts was >23kb and yield 0.5–5μg/g of soil. mDNA purification using Sephadex G-50 resin yielded high concentration of DNA from soil samples, which has been successfully used for 16S rDNA based amplification of a 1500bp DNA fragment with 27F and 1492R universal primers followed by restriction digestion and mDNA library construction. [Copyright &y& Elsevier]

Published

2014