Novel virocell metabolic potential revealed in agricultural soils by virus‐enriched soil metagenome analysis

Pesticides are employed to control and manage pest populations at tolerable levels. Pesticides are classified especially according to their chemical structure, toxicity, environmental persistence and target organisms. The massive use of these pollutants in addition to their toxic potential seriously threatens ecosystems and humans. For this reason, the development of green bioremediation processes is necessary. The ability of several microorganisms to bioremediate pesticides is mainly based on their biodegradation activity. Though bacteria have been proved to be efficient biodegraders and bioremediators, some fungi and archae could biodegrade recalcitrant pesticides too. The bioremediation of pesticide-contaminated agricultural sites may be optimized by considering the prevalent environmental conditions, the microorganisms that solubilize and degrade the pesticides most effectively, the variables that affect the biodegradation rate and the chemical structure of pesticides. This chapter explores the importance of pesticides as persistent organic pollutants in agricultural soils, particularly in the plants rhizospheric area and further illustrates the recent advances in pesticide microbial bioremediation, with emphasis on the metabolic potential of pseudomonads as a representative model of pesticide-degrading microorganisms.

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Multi-omics profiling of Earth's biomes reveals that microbial and metabolite composition are shaped by the environment

10.1101/2021.06.04.446988 ◽

2021 ◽

Author(s):

Justin P Shaffer ◽

Louis-Félix Nothias ◽

Luke R Thompson ◽

Sanders G Jon ◽

Rodolfo A Salido ◽

...

Keyword(s):

Secondary Metabolites ◽

Microbial Communities ◽

Gene Clusters ◽

Metagenomic Data ◽

Biosynthetic Gene Clusters ◽

Metabolic Potential ◽

Metagenome Analysis ◽

Metabolite Profiles ◽

Integrated Omics ◽

Chemical Evidence

Microbes produce an array of secondary metabolites that perform diverse functions from communication to defense. These metabolites have been used to benefit human health and sustainability. In their analysis of the Genomes from Earth's Microbiomes (GEM) catalog, Nayfach and co-authors observed that, whereas genes coding for certain classes of secondary metabolites are limited or enriched in certain microbial taxa, "specific chemistry is not limited or amplified by the environment, and that most classes of secondary metabolites can be found nearly anywhere". Although metagenome mining is a powerful way to annotate biosynthetic gene clusters (BCGs), chemical evidence is required to confirm the presence of metabolites and comprehensively address this fundamental hypothesis, as metagenomic data only identify metabolic potential. To describe the Earth's metabolome, we use an integrated omics approach: the direct survey of metabolites associated with microbial communities spanning diverse environments using untargeted metabolomics coupled with metagenome analysis. We show, in contrast to Nayfach and co-authors, that the presence of certain classes of secondary metabolites can be limited or amplified by the environment. Importantly, our data indicate that considering the relative abundances of secondary metabolites (i.e., rather than only presence/absence) strengthens differences in metabolite profiles across environments, and that their richness and composition in any given sample do not directly reflect those of co-occurring microbial communities, but rather vary with the environment.

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Metagenomic insights into plant growth promoting genes inherent in bacterial endophytes of Emilia sonchifolia (Linn.) DC

Plant Science Today ◽

10.14719/pst.1357 ◽

2021 ◽

Vol 8 (sp1) ◽

pp. 6-16

Author(s):

Sithara K Urumbil ◽

M Anilkumar

Keyword(s):

Plant Growth ◽

Plant Growth Promotion ◽

Host Plants ◽

Growth Promotion ◽

Acc Deaminase ◽

Metabolic Potential ◽

Illumina Hiseq ◽

Characteristic Functional ◽

Plant Growth Hormones ◽

Metagenome Analysis

Studies on the genome of endophytes reveal the metabolic potential of endophytic microbiome including both culturable and unculturable fractions. The metagenome analysis through the Illumina HiSeq platform gives access to the genetic data encrypted for the molecular machinery, which takes part in plant growth promotion activity of the endophyte in various aspects including production of plant growth hormones and enhancing nutrient availability for the host plant. The present work was undertaken to identify the genes involved in plant growth promotion activities from the endophytes of Emilia sonchifolia(Linn.) DC. through metagenome analysis. Metagenomic studies include the analysis of functional annotations which aid in the detection of biocatalysts taking part in the metabolic pathway of host plants. The annotations of expressed genes in different databases like NCBI Nr, KEGG, eggnog and CAZy resulted in enlisting the vast array of information on the genetic diversity of the endophytic microbiome. The metagenome analysis of endophytic bacteria from the medicinal plant E.sonchifolia unveiled characteristic functional genes involved in plant growth promotion such as nitrogen metabolism (nif) and siderophore production (enterobactin category), ipdC and tnaA (IAA producing), ACC deaminase coding genes (regulation of elevated ethylene levels in host tissues), Mo-Nitrogenase, nitrous-oxide reductase (nosZ), nitrate reductase (narG, napA), nitrite reductase (nirD) (nutrient assimilation and absorption) enterobactin siderophore synthetase components F and D and acid phosphatase genes. This clearly explains the effective plant-microbe relationship and the role of bacterial endophytic microbes in regulating the growth of host plants.

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Tropical Soil Metagenome Library Reveals Complex Microbial Assemblage

10.1101/018895 ◽

2015 ◽

Cited By ~ 2

Author(s):

Kok Gan Chan ◽

Zahidah Ismail

Keyword(s):

Metabolic Potential ◽

Mangrove Soil ◽

Microbial Assemblage ◽

Metagenome Library ◽

Soil Metagenome ◽

Ngs Data Analysis ◽

Next Generation Sequencing Ngs ◽

Ngs Data ◽

Generation Sequencing ◽

High Diversity

In this work, we characterized the metagenome of a Malaysian mangrove soil sample via next generation sequencing (NGS). Shotgun NGS data analysis revealed high diversity of microbes from Bacteria and Archaea domains. The metabolic potential of the metagenome was reconstructed using the NGS data and the SEED classification in MEGAN shows abundance of virulence factor genes, implying that mangrove soil is potential reservoirs of pathogens.

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Use of Paper-mill Wastes on Agricultural Soils: Is This a Way to Reduce Nitrate Leaching?

Acta Agriculturae Scandinavica Section B - Soil & Plant Science ◽

10.1080/09064710310003925 ◽

2003 ◽

Vol 53 (2) ◽

pp. 56-63 ◽

Cited By ~ 3

Author(s):

Holger Kirchmann ◽

Lars Bergström

Keyword(s):

Nitrate Leaching ◽

Agricultural Soils ◽

Paper Mill

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Metagenome analysis of plasma derived CFDNA in healthy patients and colon diseases

Zeitschrift für Gastroenterologie ◽

10.1055/s-0033-1347459 ◽

2013 ◽

Vol 51 (05) ◽

Cited By ~ 1

Author(s):

B Barták ◽

S Spisák ◽

N Solymosi ◽

P Ittzés ◽

A Bodor ◽

...

Keyword(s):

Metagenome Analysis ◽

Colon Diseases

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Examination of NOxand CO2production in agricultural soils

Cereal Research Communications ◽

10.1556/crc.35.2007.2.131 ◽

2007 ◽

Vol 35 (2) ◽

pp. 689-692 ◽

Cited By ~ 1

Author(s):

Krisztina Kristóf ◽

Györgyi Kampfl ◽

György Heltai ◽

Erika Nótás ◽

Abdousalam Algaidi

Keyword(s):

Agricultural Soils

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Modeling and Analysis of Effective Electromagnetic Parameters of Capillary System of Agricultural Soils Electric Conductivity. Low-Frequency Resonances in Empty Cylinders of Circular Section with Ideal Surface Conductivity Along Helices

Journal of Automation and Information Sciences ◽

10.1615/jautomatinfscien.v50.i10.60 ◽

2018 ◽

Vol 50 (10) ◽

pp. 77-83

Author(s):

Alexander A. Brovarets ◽

Yuriy V. Chovnyuk

Keyword(s):

Electric Conductivity ◽

Agricultural Soils ◽

Low Frequency ◽

Surface Conductivity ◽

Electromagnetic Parameters ◽

Circular Section ◽

Modeling And Analysis ◽

Capillary System

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Compressive response of some agricultural soils influenced by the mineralogy and moisture

International Agrophysics ◽

10.2478/v10247-012-0091-x ◽

2013 ◽

Vol 27 (3) ◽

pp. 239-246 ◽

Cited By ~ 9

Author(s):

A.E. Ajayi ◽

M.S. Dias Junior ◽

N. Curi ◽

I. Oladipo

Keyword(s):

Agricultural Soils ◽

Tropical Soils ◽

Homogeneity Test ◽

Confined Compression ◽

Moisture Retention ◽

Soil Mineralogy ◽

Undisturbed Soil ◽

Statistical Homogeneity ◽

Compressive Response ◽

Fine Clay

Abstract This study aimed to investigate the mineralogy, moisture retention, and the compressive response of two agricultural soils from South West Nigeria. Undisturbed soil cores at the A and B horizons were collected and used in chemical and hydrophysical characterization and confined compression test. X-ray diffractograms of oriented fine clay fractions were also obtained. Our results indicate the prevalence of kaolinite minerals relating to the weathering process in these tropical soils. Moisture retention by the core samples was typically low with pre-compression stress values ranging from50 to 300 kPa at both sites. Analyses of the shape of the compression curves highlight the influence of soil moisture in shifts from the bi-linear to S-shaped models. Statistical homogeneity test of the load bearing capacity parameters showed that the soil mineralogy influences the response to loading by these soils. These observations provide a physical basis for the previous classification series of the soils in the studied area. We showed that the internal strength attributes of the soil could be inferred from the mineralogical properties and stress history. This could assist in decisions on sustainable mechanization in a datapoor environment.

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