Denaturing gradient gel electrophoresis (DGGE) as a tool for identification of marine nematodes
Denaturing gradient gel electrophoresis (DGGE) as a tool for identification of marine nematodes
Many phyla of marine invertebrates are difficult to identify using conventional morphological taxonomy. Larvae of a wider set of phyla are also difficult to identify as a result of conservation of morphology between species or because morphological characters are destroyed during sampling and preservation. DNA sequence analysis has the potential for identification of marine organisms to the species level. However, sequence analysis of specimens is time-consuming and impractical when species diversity is very high and densities of individuals huge, as they are in many marine habitats. The effectiveness of the 18S rRNA gene sequences for identification of one species-rich marine group, the Nematoda, is analysed. Following identification of variable regions of the 18S rRNA gene, primers were designed to amplify a small segment of sequences suitable for denaturing gradient gel electrophoresis (DGGE). The effectiveness of DGGE for identifying individual species is analysed. DGGE analysis of natural communities of nematodes detected less than ? of the species present. This fraction of the community probably represents the abundant species in the original samples. It is concluded that DGGE is not a useful tool for analysis of species richness in marine communities as it fails to detect rare species of which there are usually many in the marine benthic environment. However, DGGE may be a useful method for detecting changes in communities that influence the abundance of the most common taxa.
marine nematodes, 18S ribosomal DNA. denaturing gradient gel electrophoresis
103-113
Cook, A.A.
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Bhadury, P.
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Debenham, N.J.
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Meldal, B.H.M.
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Blaxter, M.L.
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Smerdon, G.R.
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Austen, M.C.
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Lambshead, P.J.D.
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Rogers, A.J.
7f3a0b7b-a9e9-40c2-98a3-3c758e60cb48
2005
Cook, A.A.
bfbcc443-6dfe-4eda-811f-3d38dba06eb2
Bhadury, P.
9b765b41-f43f-4496-9da3-757792873e70
Debenham, N.J.
5fb46225-14c7-4131-8520-421857ecf5f9
Meldal, B.H.M.
19a8a4c1-0a2a-4cbf-90a1-b3a559e36f90
Blaxter, M.L.
84af8139-8923-45a1-9ed0-0f49b69ef752
Smerdon, G.R.
12a79381-b7d4-486b-966e-b30b10a2becf
Austen, M.C.
dd474983-7736-42ac-9611-702963d5e118
Lambshead, P.J.D.
9940ec95-721a-4b32-aa5d-fd925e4f021e
Rogers, A.J.
7f3a0b7b-a9e9-40c2-98a3-3c758e60cb48
Cook, A.A., Bhadury, P., Debenham, N.J., Meldal, B.H.M., Blaxter, M.L., Smerdon, G.R., Austen, M.C., Lambshead, P.J.D. and Rogers, A.J.
(2005)
Denaturing gradient gel electrophoresis (DGGE) as a tool for identification of marine nematodes.
Marine Ecology Progress Series, 291, .
(doi:10.3354/meps291103).
Abstract
Many phyla of marine invertebrates are difficult to identify using conventional morphological taxonomy. Larvae of a wider set of phyla are also difficult to identify as a result of conservation of morphology between species or because morphological characters are destroyed during sampling and preservation. DNA sequence analysis has the potential for identification of marine organisms to the species level. However, sequence analysis of specimens is time-consuming and impractical when species diversity is very high and densities of individuals huge, as they are in many marine habitats. The effectiveness of the 18S rRNA gene sequences for identification of one species-rich marine group, the Nematoda, is analysed. Following identification of variable regions of the 18S rRNA gene, primers were designed to amplify a small segment of sequences suitable for denaturing gradient gel electrophoresis (DGGE). The effectiveness of DGGE for identifying individual species is analysed. DGGE analysis of natural communities of nematodes detected less than ? of the species present. This fraction of the community probably represents the abundant species in the original samples. It is concluded that DGGE is not a useful tool for analysis of species richness in marine communities as it fails to detect rare species of which there are usually many in the marine benthic environment. However, DGGE may be a useful method for detecting changes in communities that influence the abundance of the most common taxa.
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Published date: 2005
Keywords:
marine nematodes, 18S ribosomal DNA. denaturing gradient gel electrophoresis
Organisations:
Ocean and Earth Science, National Oceanography Centre,Southampton
Identifiers
Local EPrints ID: 20423
URI: http://eprints.soton.ac.uk/id/eprint/20423
PURE UUID: d636bee3-9229-4f37-9488-18b135ab7853
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Date deposited: 24 Feb 2006
Last modified: 15 Mar 2024 06:24
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Contributors
Author:
A.A. Cook
Author:
P. Bhadury
Author:
N.J. Debenham
Author:
B.H.M. Meldal
Author:
M.L. Blaxter
Author:
G.R. Smerdon
Author:
M.C. Austen
Author:
P.J.D. Lambshead
Author:
A.J. Rogers
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