Development of a DGGE method to explore Legionella communities

Development of a DGGE method to explore Legionella communities

Legionella risk assessment is nowadays based on the presence and concentration of either Legionella pneumophila or Legionella spp. Many species of Legionella can cause Legionnaires’ disease, indeed about half of the known species have been associated with infection. The aim of this work was to devel...

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Main Authors: S. Bayle, B. Martinez-Arribas, S. Jarraud, P. Giannoni, L. Garrelly, B. Roig, A. Cadière
Format: Article
Language:English
Published: Elsevier 2020-01-01
Series:Heliyon
Subjects:
Environmental sciences
Microbiology
Bacteria
Environmental impact assessment
Environmental risk assessment
Microorganism
Online Access:http://www.sciencedirect.com/science/article/pii/S2405844019368082
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spelling doaj-bb269df2d3594ce7a48d4b5a6706956b2020-11-25T02:56:35ZengElsevierHeliyon2405-84402020-01-0161e03149Development of a DGGE method to explore Legionella communitiesS. Bayle0B. Martinez-Arribas1S. Jarraud2P. Giannoni3L. Garrelly4B. Roig5A. Cadière6Laboratoire Génie de l’Environnement Industriel, IMT- Mines Alès, Université de Montpellier, Alès, 30100, FranceEA7352 CHROME, Rue du Dr G. Salan, University of Nîmes, 30021 Nîmes cedex 1, FranceHospices Civils de Lyon, Groupement Hospitalier Nord, Institut des Agents Infectieux, FranceEA7352 CHROME, Rue du Dr G. Salan, University of Nîmes, 30021 Nîmes cedex 1, FranceGL Biocontrol, 9, avenue de l'Europe, Cap Alpha, 34830, Clapiers, FranceEA7352 CHROME, Rue du Dr G. Salan, University of Nîmes, 30021 Nîmes cedex 1, FranceEA7352 CHROME, Rue du Dr G. Salan, University of Nîmes, 30021 Nîmes cedex 1, France; Corresponding author.Legionella risk assessment is nowadays based on the presence and concentration of either Legionella pneumophila or Legionella spp. Many species of Legionella can cause Legionnaires’ disease, indeed about half of the known species have been associated with infection. The aim of this work was to develop a method to assess the composition of the Legionella species community in an environmental sample in order to have a better understanding of the contamination of the ecosystem by pathogenic strains.The method is based on the comparison of PCR-DGGE profile of DNA sample with a database consisting in DGGE profiles of Legionella species. Such a database includes all pathogenic Legionella strains. In order to homogenize and normalize the different DGGE fingerprint, a reference marker has been built and added during DGGE gel analysis. This study gives a valuable advance in the methods available for the understanding of Legionella contamination of water environments.http://www.sciencedirect.com/science/article/pii/S2405844019368082Environmental sciencesMicrobiologyBacteriaEnvironmental impact assessmentEnvironmental risk assessmentMicroorganism
collection DOAJ
language English
format Article
sources DOAJ
author S. Bayle
B. Martinez-Arribas
S. Jarraud
P. Giannoni
L. Garrelly
B. Roig
A. Cadière
spellingShingle S. Bayle
B. Martinez-Arribas
S. Jarraud
P. Giannoni
L. Garrelly
B. Roig
A. Cadière
Development of a DGGE method to explore Legionella communities
Heliyon
Environmental sciences
Microbiology
Bacteria
Environmental impact assessment
Environmental risk assessment
Microorganism
author_facet S. Bayle
B. Martinez-Arribas
S. Jarraud
P. Giannoni
L. Garrelly
B. Roig
A. Cadière
author_sort S. Bayle
title Development of a DGGE method to explore Legionella communities
title_short Development of a DGGE method to explore Legionella communities
title_full Development of a DGGE method to explore Legionella communities
title_fullStr Development of a DGGE method to explore Legionella communities
title_full_unstemmed Development of a DGGE method to explore Legionella communities
title_sort development of a dgge method to explore legionella communities
publisher Elsevier
series Heliyon
issn 2405-8440
publishDate 2020-01-01
description Legionella risk assessment is nowadays based on the presence and concentration of either Legionella pneumophila or Legionella spp. Many species of Legionella can cause Legionnaires’ disease, indeed about half of the known species have been associated with infection. The aim of this work was to develop a method to assess the composition of the Legionella species community in an environmental sample in order to have a better understanding of the contamination of the ecosystem by pathogenic strains.The method is based on the comparison of PCR-DGGE profile of DNA sample with a database consisting in DGGE profiles of Legionella species. Such a database includes all pathogenic Legionella strains. In order to homogenize and normalize the different DGGE fingerprint, a reference marker has been built and added during DGGE gel analysis. This study gives a valuable advance in the methods available for the understanding of Legionella contamination of water environments.
topic Environmental sciences
Microbiology
Bacteria
Environmental impact assessment
Environmental risk assessment
Microorganism
url http://www.sciencedirect.com/science/article/pii/S2405844019368082
work_keys_str_mv AT sbayle developmentofadggemethodtoexplorelegionellacommunities
AT bmartinezarribas developmentofadggemethodtoexplorelegionellacommunities
AT sjarraud developmentofadggemethodtoexplorelegionellacommunities
AT pgiannoni developmentofadggemethodtoexplorelegionellacommunities
AT lgarrelly developmentofadggemethodtoexplorelegionellacommunities
AT broig developmentofadggemethodtoexplorelegionellacommunities
AT acadiere developmentofadggemethodtoexplorelegionellacommunities
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