GeneFISH - an in situ technique for linking gene presence and cell identity in environmental microorganisms
GeneFISH - an in situ technique for linking gene presence and cell identity in environmental microorganisms
Our knowledge concerning the metabolic potentials of as yet to be cultured microorganisms has increased tremendously with the advance of sequencing technologies and the consequent discoveries of novel genes. On the other hand, it is often difficult to reliably assign a particular gene to a phylogenetic clade, because these sequences are usually found on genomic fragments that carry no direct marker of cell identity, such as rRNA genes. Therefore, the aim of the present study was to develop geneFISH - a protocol for linking gene presence with cell identity in environmental samples, the signals of which can be visualized at a single cell level. This protocol combines rRNA-targeted catalysed reporter deposition - fluorescence in situ hybridization and in situ gene detection. To test the protocol, it was applied to seawater samples from the Benguela upwelling system. For gene detection, a polynucleotide probe mix was used, which was designed based on crenarchaeotal amoA clone libraries prepared from each seawater sample. Each probe in the mix was selected to bind to targets with up to 5% mismatches. To determine the hybridization parameters, the T(m) of probes, targets and hybrids was estimated based on theoretical calculations and in vitro measurements. It was shown that at least 30%, but potentially the majority of the Crenarchaeota present in these samples harboured the amoA gene and were therefore likely to be catalysing the oxidation of ammonia.
3057-3073
Moraru, Cristina
04fb7859-86b9-43c5-98ed-2cfc61aacf50
Lam, Phyllis
996aef80-a15d-4827-aed8-1b97b378f6ad
Fuchs, Bernhard M.
dfa49acc-93b0-4d04-87af-52ec11fa6b0e
Kuypers, Marcel M.M.
b6288cfb-42bc-469c-93fe-8fbb40d97bec
Amann, Rudolf
315b5cfc-deaa-4283-baf4-7fb655fe5730
November 2010
Moraru, Cristina
04fb7859-86b9-43c5-98ed-2cfc61aacf50
Lam, Phyllis
996aef80-a15d-4827-aed8-1b97b378f6ad
Fuchs, Bernhard M.
dfa49acc-93b0-4d04-87af-52ec11fa6b0e
Kuypers, Marcel M.M.
b6288cfb-42bc-469c-93fe-8fbb40d97bec
Amann, Rudolf
315b5cfc-deaa-4283-baf4-7fb655fe5730
Moraru, Cristina, Lam, Phyllis, Fuchs, Bernhard M., Kuypers, Marcel M.M. and Amann, Rudolf
(2010)
GeneFISH - an in situ technique for linking gene presence and cell identity in environmental microorganisms.
Environmental Microbiology, 12 (11), .
(doi:10.1111/j.1462-2920.2010.02281.x).
(PMID:20629705)
Abstract
Our knowledge concerning the metabolic potentials of as yet to be cultured microorganisms has increased tremendously with the advance of sequencing technologies and the consequent discoveries of novel genes. On the other hand, it is often difficult to reliably assign a particular gene to a phylogenetic clade, because these sequences are usually found on genomic fragments that carry no direct marker of cell identity, such as rRNA genes. Therefore, the aim of the present study was to develop geneFISH - a protocol for linking gene presence with cell identity in environmental samples, the signals of which can be visualized at a single cell level. This protocol combines rRNA-targeted catalysed reporter deposition - fluorescence in situ hybridization and in situ gene detection. To test the protocol, it was applied to seawater samples from the Benguela upwelling system. For gene detection, a polynucleotide probe mix was used, which was designed based on crenarchaeotal amoA clone libraries prepared from each seawater sample. Each probe in the mix was selected to bind to targets with up to 5% mismatches. To determine the hybridization parameters, the T(m) of probes, targets and hybrids was estimated based on theoretical calculations and in vitro measurements. It was shown that at least 30%, but potentially the majority of the Crenarchaeota present in these samples harboured the amoA gene and were therefore likely to be catalysing the oxidation of ammonia.
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e-pub ahead of print date: 3 November 2010
Published date: November 2010
Organisations:
Ocean Biochemistry & Ecosystems
Identifiers
Local EPrints ID: 349916
URI: http://eprints.soton.ac.uk/id/eprint/349916
ISSN: 1462-2920
PURE UUID: a7655b66-e1e0-4e6b-8856-b6eb648f24f2
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Date deposited: 13 Mar 2013 13:54
Last modified: 15 Mar 2024 03:47
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Author:
Cristina Moraru
Author:
Bernhard M. Fuchs
Author:
Marcel M.M. Kuypers
Author:
Rudolf Amann
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