Culture-independent study of bacterial communities in tropical river sediment

ABSTRACT Bacterial communities resident in the hindgut of pigs, have profound impacts on health and disease. Investigations into the pig microbiome have utilized either culture-dependent, or far more commonly, culture-independent techniques using next generation sequencing. We contend that a combination of both approaches generates a more coherent view of microbiome composition. In this study, we surveyed the microbiome of Tamworth breed and feral pigs through the integration high throughput culturing and shotgun metagenomics. A single culture medium was used for culturing. Selective screens were added to the media to increase culture diversity. In total, 46 distinct bacterial species were isolated from the Tamworth and feral samples. Selective screens successfully shifted the diversity of bacteria on agar plates. Tamworth pigs are highly dominated by Bacteroidetes primarily composed of the genus Prevotella whereas feral samples were more diverse with almost equal proportions of Firmicutes and Bacteroidetes. The combination of metagenomics and culture techniques facilitated a greater retrieval of annotated genes than either method alone. The single medium based pig microbiota library we report is a resource to better understand pig gut microbial ecology and function. It allows for assemblage of defined bacterial communities for studies in bioreactors or germfree animal models.

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Culture‐independent analysis of hydrocarbonoclastic bacterial communities in environmental samples during oil‐bioremediation

MicrobiologyOpen ◽

10.1002/mbo3.630 ◽

2018 ◽

Vol 8 (2) ◽

pp. e00630 ◽

Cited By ~ 7

Author(s):

Narjes Dashti ◽

Nedaa Ali ◽

Samar Salamah ◽

Majida Khanafer ◽

Ghada Al‐Shamy ◽

...

Keyword(s):

Bacterial Communities ◽

Environmental Samples ◽

Independent Analysis ◽

Culture Independent

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Comparison of specific endophytic bacterial communities in different developmental stages of Passiflora incarnata using culture‐dependent and culture‐independent analysis

MicrobiologyOpen ◽

10.1002/mbo3.896 ◽

2019 ◽

Vol 8 (10) ◽

Cited By ~ 5

Author(s):

Marcela C. Goulart ◽

Luis G. Cueva‐Yesquén ◽

Kelly J. Hidalgo Martinez ◽

Derlene Attili‐Angelis ◽

Fabiana Fantinatti‐Garboggini

Keyword(s):

Bacterial Communities ◽

Developmental Stages ◽

Independent Analysis ◽

Culture Independent ◽

Passiflora Incarnata ◽

Culture Dependent

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Culture Independent Diversity of Bacterial Communities Indigenous to Lower Altitude at Laohugou Glacial Environment

Geomicrobiology Journal ◽

10.1080/01490451.2020.1797946 ◽

2020 ◽

Vol 38 (1) ◽

pp. 1-13 ◽

Cited By ~ 1

Author(s):

Barkat Ali ◽

Wasim Sajjad ◽

Prakriti Sharma Ghimire ◽

Suliman Khan ◽

Ghufranud Din ◽

...

Keyword(s):

Bacterial Communities ◽

Lower Altitude ◽

Culture Independent

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Effect of environmental conditions on polychlorinated biphenyl transformations and bacterial communities in a river sediment

Journal of Soils and Sediments ◽

10.1007/s11368-010-0218-2 ◽

2010 ◽

Vol 10 (6) ◽

pp. 1186-1199 ◽

Cited By ~ 9

Author(s):

Elisa D’Angelo ◽

Andres Nunez

Keyword(s):

Environmental Conditions ◽

Bacterial Communities ◽

River Sediment ◽

Polychlorinated Biphenyl

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S21 Culture Independent Identification Of Bacterial Communities In The Respiratory Tract Of Patients With Copd, Healthy Non-smokers And Healthy Smokers

Thorax ◽

10.1136/thoraxjnl-2014-206260.27 ◽

2014 ◽

Vol 69 (Suppl 2) ◽

pp. A13-A14

Author(s):

G. Einarsson ◽

A. Walker ◽

M. Tunney ◽

J. Elborn

Keyword(s):

Respiratory Tract ◽

Bacterial Communities ◽

Culture Independent

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Bacteria in tropical floodplain soils are sensitive to changes in saltwater

Marine and Freshwater Research ◽

10.1071/mf16033 ◽

2018 ◽

Vol 69 (7) ◽

pp. 1110 ◽

Cited By ~ 4

Author(s):

Tiffanie M. Nelson ◽

Claire Streten ◽

Karen S. Gibb ◽

Anthony A. Chariton

Keyword(s):

Bacterial Community ◽

Bacterial Communities ◽

Saltwater Intrusion ◽

National Park ◽

Wetland Soils ◽

Rrna Gene ◽

Northern Australia ◽

Tropical River ◽

16S Rrna Gene Pyrosequencing ◽

Freshwater Habitats

Bacterial communities in floodplain and wetland soils cycle elements essential for flora and fauna. The coastal habitats of northern Australia are threatened with increasing saltwater intrusion (SWI) events that will destroy freshwater habitats. The effect of the impending SWI on bacterial communities is unknown. Here, we examined the bacterial communities of a tropical river floodplain located in World Heritage Kakadu National Park. Using 16S rRNA gene pyrosequencing, we measured the baseline bacterial communities from three morphologically distinct regions of the floodplain (lower, upper and backwater swamp), within three zones of the South Alligator River (upstream, cuspate and estuarine funnel or sinuous). Significant differences in the bacterial community were observed at each category of floodplain morphology and river zone. The greatest differences were due to pH and salinity. Large changes in bacterial compositions are predicted to occur with increases in salinity and pH. Saltwater intrusion is predicted to increase substantially in the next decades with sea-level rise, and is likely to cause large and significant changes to the bacterial community with unknown consequences for biogeochemical cycling. Kakadu National Park may benefit from incorporating bacteria into routine studies, because we have shown here that they are sensitive indicators of change, even across small ranges of abiotic variables.

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Culture-Independent Characterization of Bacterial Communities Associated with the Cold-Water Coral Lophelia pertusa in the Northeastern Gulf of Mexico

Applied and Environmental Microbiology ◽

10.1128/aem.02357-08 ◽

2009 ◽

Vol 75 (8) ◽

pp. 2294-2303 ◽

Cited By ~ 65

Author(s):

Christina A. Kellogg ◽

John T. Lisle ◽

Julia P. Galkiewicz

Keyword(s):

Gulf Of Mexico ◽

Shallow Water ◽

Bacterial Communities ◽

Cold Water ◽

Environmental Gradients ◽

Rrna Gene ◽

Lophelia Pertusa ◽

Culture Independent ◽

Northeastern Gulf Of Mexico ◽

Study Sites

ABSTRACT Bacteria are recognized as an important part of the total biology of shallow-water corals. Studies of shallow-water corals suggest that associated bacteria may benefit the corals by cycling carbon, fixing nitrogen, chelating iron, and producing antibiotics that protect the coral from other microbes. Cold-water or deep-sea corals have a fundamentally different ecology due to their adaptation to cold, dark, high-pressure environments and as such have novel microbiota. The goal of this study was to characterize the microbial associates of Lophelia pertusa in the northeastern Gulf of Mexico. This is the first study to collect the coral samples in individual insulated containers and to preserve coral samples at depth in an effort to minimize thermal shock and evaluate the effects of environmental gradients on the microbial diversity of samples. Molecular analysis of bacterial diversity showed a marked difference between the two study sites, Viosca Knoll 906/862 (VK906/862) and Viosca Knoll 826 (VK826). The bacterial communities from VK826 were dominated by a variety of unknown mycoplasmal members of the Tenericutes and Bacteroidetes, whereas the libraries from VK906/862 were dominated by members of the Proteobacteria. In addition to novel sequences, the 16S rRNA gene clone libraries revealed many bacterial sequences in common between Gulf of Mexico Lophelia corals and Norwegian fjord Lophelia corals, as well as shallow-water corals. Two Lophelia-specific bacterial groups were identified: a cluster of gammaproteobacteria related to sulfide-oxidizing gill symbionts of seep clams and a group of Mycoplasma spp. The presence of these groups in both Gulf and Norwegian Lophelia corals indicates that in spite of the geographic heterogeneity observed in Lophelia-associated bacterial communities, there are Lophelia-specific microbes.

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