Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)

Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)

Benthic foraminifera are an important component of the marine biota, but protocols for investigating their viability and metabolism are still extremely limited. Classical studies on benthic foraminifera have been based on direct counting under light microscopy. Typically, these organisms are stained...

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Main Authors: C. Borrelli, A. Sabbatini, G. M. Luna, M. P. Nardelli, T. Sbaffi, C. Morigi, R. Danovaro, A. Negri
Format: Article
Language:English
Published: Copernicus Publications 2011-08-01
Series:Biogeosciences
Online Access:http://www.biogeosciences.net/8/2075/2011/bg-8-2075-2011.pdf
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spelling doaj-3c3caf6c09d4456a9615d592ca605d3e2020-11-24T23:44:04ZengCopernicus PublicationsBiogeosciences1726-41701726-41892011-08-01882075208810.5194/bg-8-2075-2011Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)C. BorrelliA. SabbatiniG. M. LunaM. P. NardelliT. SbaffiC. MorigiR. DanovaroA. NegriBenthic foraminifera are an important component of the marine biota, but protocols for investigating their viability and metabolism are still extremely limited. Classical studies on benthic foraminifera have been based on direct counting under light microscopy. Typically, these organisms are stained with Rose Bengal, which binds proteins and other macromolecules, but does not allow discrimination between viable and recently dead organisms. The fluorescent in situ hybridization technique (FISH) represents a new and useful approach to identify living cells possessing an active metabolism. Our work is the first test of the suitability of the FISH technique, based on fluorescent probes targeting the 18S rRNA, to detect live benthic foraminifera. The protocol was applied on <I>Ammonia</I> group and Miliolids, as well as on agglutinated polythalamous (i.e., <I>Leptohalysis scottii</I> and <I>Eggerella scabra</I>) and soft-shelled monothalamous (i.e., <I>Psammophaga</I> sp. and saccamminid morphotypes) taxa. The results from FISH analyses were compared with those obtained, on the same specimens assayed with FISH, from microscopic analysis of the cytoplasm colour, presence of pigments and pseudopodial activity. Our results indicate that FISH targets only metabolically active foraminifera, and allows discerning from low to high cellular activity, validating the hypothesis that the intensity of the fluorescent signal emitted by the probe is dependent upon the physiological status of cells. These findings support the usefulness of this molecular approach as a key tool for obtaining information on the physiology of living foraminifera, both in field and experimental settings.http://www.biogeosciences.net/8/2075/2011/bg-8-2075-2011.pdf
collection DOAJ
language English
format Article
sources DOAJ
author C. Borrelli
A. Sabbatini
G. M. Luna
M. P. Nardelli
T. Sbaffi
C. Morigi
R. Danovaro
A. Negri
spellingShingle C. Borrelli
A. Sabbatini
G. M. Luna
M. P. Nardelli
T. Sbaffi
C. Morigi
R. Danovaro
A. Negri
Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)
Biogeosciences
author_facet C. Borrelli
A. Sabbatini
G. M. Luna
M. P. Nardelli
T. Sbaffi
C. Morigi
R. Danovaro
A. Negri
author_sort C. Borrelli
title Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)
title_short Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)
title_full Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)
title_fullStr Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)
title_full_unstemmed Technical Note: Determination of the metabolically active fraction of benthic foraminifera by means of Fluorescent In Situ Hybridization (FISH)
title_sort technical note: determination of the metabolically active fraction of benthic foraminifera by means of fluorescent in situ hybridization (fish)
publisher Copernicus Publications
series Biogeosciences
issn 1726-4170
1726-4189
publishDate 2011-08-01
description Benthic foraminifera are an important component of the marine biota, but protocols for investigating their viability and metabolism are still extremely limited. Classical studies on benthic foraminifera have been based on direct counting under light microscopy. Typically, these organisms are stained with Rose Bengal, which binds proteins and other macromolecules, but does not allow discrimination between viable and recently dead organisms. The fluorescent in situ hybridization technique (FISH) represents a new and useful approach to identify living cells possessing an active metabolism. Our work is the first test of the suitability of the FISH technique, based on fluorescent probes targeting the 18S rRNA, to detect live benthic foraminifera. The protocol was applied on <I>Ammonia</I> group and Miliolids, as well as on agglutinated polythalamous (i.e., <I>Leptohalysis scottii</I> and <I>Eggerella scabra</I>) and soft-shelled monothalamous (i.e., <I>Psammophaga</I> sp. and saccamminid morphotypes) taxa. The results from FISH analyses were compared with those obtained, on the same specimens assayed with FISH, from microscopic analysis of the cytoplasm colour, presence of pigments and pseudopodial activity. Our results indicate that FISH targets only metabolically active foraminifera, and allows discerning from low to high cellular activity, validating the hypothesis that the intensity of the fluorescent signal emitted by the probe is dependent upon the physiological status of cells. These findings support the usefulness of this molecular approach as a key tool for obtaining information on the physiology of living foraminifera, both in field and experimental settings.
url http://www.biogeosciences.net/8/2075/2011/bg-8-2075-2011.pdf
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