Literature DB >> 15933019

Microplate subtractive hybridization to enrich for bacteroidales genetic markers for fecal source identification.

Linda K Dick1, Michael T Simonich, Katharine G Field.   

Abstract

The ability to identify sources of fecal pollution plays a key role in the analysis of human health risk and the implementation of water resource management strategies. One approach to this problem involves the identification of bacterial lineages or gene sequences that are found exclusively in a particular host species or group. We used subtractive hybridization to enrich for target host-specific fecal Bacteroidales rRNA gene fragments that were different from those of very closely related reference (subtracter) host sources. Target host rRNA gene fragments were hybridized to subtracter rRNA gene fragments immobilized in a microplate well, and target sequences that did not hybridize were cloned and sequenced for PCR primer design. The use of microplates for DNA immobilization resulted in a one-step subtractive hybridization in which the products could be directly amplified with PCR. The new host-specific primers designed from subtracted target fragments differentiated among very closely related Bacteroidales rRNA gene sequences and distinguished between similar fecal sources, such as elk and cow or human and domestic pet (dog).

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Year:  2005        PMID: 15933019      PMCID: PMC1151815          DOI: 10.1128/AEM.71.6.3179-3183.2005

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  25 in total

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4.  Microplate hybridization of amplified viral DNA segment.

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5.  Use of subtractive hybridization to design habitat-based oligonucleotide probes for investigation of natural bacterial communities.

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6.  Direct analysis of genes encoding 16S rRNA from complex communities reveals many novel molecular species within the human gut.

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7.  Complete nucleotide sequence of a 16S ribosomal RNA gene from Escherichia coli.

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3.  Decay of bacterial pathogens, fecal indicators, and real-time quantitative PCR genetic markers in manure-amended soils.

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4.  Persistence and growth of fecal Bacteroidales assessed by bromodeoxyuridine immunocapture.

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5.  Identification of Specialists and Abundance-Occupancy Relationships among Intestinal Bacteria of Aves, Mammalia, and Actinopterygii.

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7.  Genetic markers for rapid PCR-based identification of gull, Canada goose, duck, and chicken fecal contamination in water.

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8.  Distribution and Differential Survival of Traditional and Alternative Indicators of Fecal Pollution at Freshwater Beaches.

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9.  Quantitative PCR for detection and enumeration of genetic markers of bovine fecal pollution.

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10.  Molecular identification of fecal pollution sources in water supplies by host-specific fecal DNA markers and Terminal Restriction Fragment Length Polymorphism profiles of 16S rRNA gene.

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