Community analysis of ammonia-oxidising bacteria, in relation to oxygen availability in soils and root-oxygenated sediments, using PCR, DGGE and oligonucleotide probe hybridisation

G.A. Kowalchuk; P.L.E. Bodelier; G.H.J. Heilig; J.R. Stephen; H.J. Laanbroek

doi:10.1111/j.1574-6941.1998.tb00550.x

Community analysis of ammonia-oxidising bacteria, in relation to oxygen availability in soils and root-oxygenated sediments, using PCR, DGGE and oligonucleotide probe hybridisation

G.A. Kowalchuk, P.L.E. Bodelier, G.H.J. Heilig, J.R. Stephen, H.J. Laanbroek

Research output: Contribution to journal/periodical › Article › Scientific › peer-review

171 Citations (Scopus)

Abstract

The rhizosphere of oxygen-releasing wetland plants provides a niche for oxygen-consuming microorganisms such as chemolithotrophic ammonia-oxidising bacteria. These bacteria are adapted to oxygen limitation with respect to their affinity for oxygen, ability to survive periods of anoxia, and immediate response to the appearance of oxygen. In this study the techniques of specific amplification of ammonia oxidiser 16S rDNA fragments by PCR, separation of mixed PCR samples by denaturing gradient gel electrophoresis (DGGE), and band identification by specific hybridisation with oligonucleotide probes were combined to allow for the comparison of the community composition of multiple samples over space and time. DGGE bands of interest were also excised for DNA isolation, reamplification, sequence determination and phylogenetic analysis. We compared monthly samples from both the root zone and the bare sediment of a shallow lake inhabited by the emergent macrophyte Glyceria maxima to determine the seasonal effects that the plant roots and the oxygen availability might have on the beta-subgroup ammonia-oxidiser populations present. Similarly, five soil or sediment samples, varying in oxygen availability, from different locations in the Netherlands were compared. Although the presence of two previously defined Nitrosospira sequence clusters could be differentially detected in the samples examined, there was no evidence for a particular group which was specific to periodically anoxic environments. [KEYWORDS: Nitrosospira; Nitrosomonas; diversity; nitrification; biogeography; oxygen limitation 16s ribosomal-rna; gradient gel-electrophoresis; polymerase chain-reaction; oxidizing bacteria; nitrifying bacteria; gene-sequences; class proteobacteria; dna fragments; plants; nitrification]

Original language	English
Pages (from-to)	339-350
Journal	FEMS Microbiology Ecology
Volume	27
Issue number	4
DOIs	https://doi.org/10.1111/j.1574-6941.1998.tb00550.x
Publication status	Published - 1998

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Kowalchuk, G. A., Bodelier, P. L. E., Heilig, G. H. J., Stephen, J. R., & Laanbroek, H. J. (1998). Community analysis of ammonia-oxidising bacteria, in relation to oxygen availability in soils and root-oxygenated sediments, using PCR, DGGE and oligonucleotide probe hybridisation. FEMS Microbiology Ecology, 27(4), 339-350. https://doi.org/10.1111/j.1574-6941.1998.tb00550.x

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title = "Community analysis of ammonia-oxidising bacteria, in relation to oxygen availability in soils and root-oxygenated sediments, using PCR, DGGE and oligonucleotide probe hybridisation",

abstract = "The rhizosphere of oxygen-releasing wetland plants provides a niche for oxygen-consuming microorganisms such as chemolithotrophic ammonia-oxidising bacteria. These bacteria are adapted to oxygen limitation with respect to their affinity for oxygen, ability to survive periods of anoxia, and immediate response to the appearance of oxygen. In this study the techniques of specific amplification of ammonia oxidiser 16S rDNA fragments by PCR, separation of mixed PCR samples by denaturing gradient gel electrophoresis (DGGE), and band identification by specific hybridisation with oligonucleotide probes were combined to allow for the comparison of the community composition of multiple samples over space and time. DGGE bands of interest were also excised for DNA isolation, reamplification, sequence determination and phylogenetic analysis. We compared monthly samples from both the root zone and the bare sediment of a shallow lake inhabited by the emergent macrophyte Glyceria maxima to determine the seasonal effects that the plant roots and the oxygen availability might have on the beta-subgroup ammonia-oxidiser populations present. Similarly, five soil or sediment samples, varying in oxygen availability, from different locations in the Netherlands were compared. Although the presence of two previously defined Nitrosospira sequence clusters could be differentially detected in the samples examined, there was no evidence for a particular group which was specific to periodically anoxic environments. [KEYWORDS: Nitrosospira; Nitrosomonas; diversity; nitrification; biogeography; oxygen limitation 16s ribosomal-rna; gradient gel-electrophoresis; polymerase chain-reaction; oxidizing bacteria; nitrifying bacteria; gene-sequences; class proteobacteria; dna fragments; plants; nitrification]",

author = "G.A. Kowalchuk and P.L.E. Bodelier and G.H.J. Heilig and J.R. Stephen and H.J. Laanbroek",

note = "Reporting year: 1998 Metis note: 2480; CTE ; CL; TME ; MWE ; ME file:///L:/Endnotedatabases/NIOOPUB/pdfs/Pdfs1998/Kowalchuk_2480.pdf",

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doi = "10.1111/j.1574-6941.1998.tb00550.x",

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pages = "339--350",

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Community analysis of ammonia-oxidising bacteria, in relation to oxygen availability in soils and root-oxygenated sediments, using PCR, DGGE and oligonucleotide probe hybridisation. / Kowalchuk, G.A.; Bodelier, P.L.E.; Heilig, G.H.J. et al.
In: FEMS Microbiology Ecology, Vol. 27, No. 4, 1998, p. 339-350.

Research output: Contribution to journal/periodical › Article › Scientific › peer-review

TY - JOUR

T1 - Community analysis of ammonia-oxidising bacteria, in relation to oxygen availability in soils and root-oxygenated sediments, using PCR, DGGE and oligonucleotide probe hybridisation

AU - Kowalchuk, G.A.

AU - Bodelier, P.L.E.

AU - Heilig, G.H.J.

AU - Stephen, J.R.

AU - Laanbroek, H.J.

N1 - Reporting year: 1998 Metis note: 2480; CTE ; CL; TME ; MWE ; ME file:///L:/Endnotedatabases/NIOOPUB/pdfs/Pdfs1998/Kowalchuk_2480.pdf

PY - 1998

Y1 - 1998

N2 - The rhizosphere of oxygen-releasing wetland plants provides a niche for oxygen-consuming microorganisms such as chemolithotrophic ammonia-oxidising bacteria. These bacteria are adapted to oxygen limitation with respect to their affinity for oxygen, ability to survive periods of anoxia, and immediate response to the appearance of oxygen. In this study the techniques of specific amplification of ammonia oxidiser 16S rDNA fragments by PCR, separation of mixed PCR samples by denaturing gradient gel electrophoresis (DGGE), and band identification by specific hybridisation with oligonucleotide probes were combined to allow for the comparison of the community composition of multiple samples over space and time. DGGE bands of interest were also excised for DNA isolation, reamplification, sequence determination and phylogenetic analysis. We compared monthly samples from both the root zone and the bare sediment of a shallow lake inhabited by the emergent macrophyte Glyceria maxima to determine the seasonal effects that the plant roots and the oxygen availability might have on the beta-subgroup ammonia-oxidiser populations present. Similarly, five soil or sediment samples, varying in oxygen availability, from different locations in the Netherlands were compared. Although the presence of two previously defined Nitrosospira sequence clusters could be differentially detected in the samples examined, there was no evidence for a particular group which was specific to periodically anoxic environments. [KEYWORDS: Nitrosospira; Nitrosomonas; diversity; nitrification; biogeography; oxygen limitation 16s ribosomal-rna; gradient gel-electrophoresis; polymerase chain-reaction; oxidizing bacteria; nitrifying bacteria; gene-sequences; class proteobacteria; dna fragments; plants; nitrification]

AB - The rhizosphere of oxygen-releasing wetland plants provides a niche for oxygen-consuming microorganisms such as chemolithotrophic ammonia-oxidising bacteria. These bacteria are adapted to oxygen limitation with respect to their affinity for oxygen, ability to survive periods of anoxia, and immediate response to the appearance of oxygen. In this study the techniques of specific amplification of ammonia oxidiser 16S rDNA fragments by PCR, separation of mixed PCR samples by denaturing gradient gel electrophoresis (DGGE), and band identification by specific hybridisation with oligonucleotide probes were combined to allow for the comparison of the community composition of multiple samples over space and time. DGGE bands of interest were also excised for DNA isolation, reamplification, sequence determination and phylogenetic analysis. We compared monthly samples from both the root zone and the bare sediment of a shallow lake inhabited by the emergent macrophyte Glyceria maxima to determine the seasonal effects that the plant roots and the oxygen availability might have on the beta-subgroup ammonia-oxidiser populations present. Similarly, five soil or sediment samples, varying in oxygen availability, from different locations in the Netherlands were compared. Although the presence of two previously defined Nitrosospira sequence clusters could be differentially detected in the samples examined, there was no evidence for a particular group which was specific to periodically anoxic environments. [KEYWORDS: Nitrosospira; Nitrosomonas; diversity; nitrification; biogeography; oxygen limitation 16s ribosomal-rna; gradient gel-electrophoresis; polymerase chain-reaction; oxidizing bacteria; nitrifying bacteria; gene-sequences; class proteobacteria; dna fragments; plants; nitrification]

U2 - 10.1111/j.1574-6941.1998.tb00550.x

DO - 10.1111/j.1574-6941.1998.tb00550.x

M3 - Article

SN - 0168-6496

VL - 27

SP - 339

EP - 350

JO - FEMS Microbiology Ecology

JF - FEMS Microbiology Ecology

IS - 4

ER -

Community analysis of ammonia-oxidising bacteria, in relation to oxygen availability in soils and root-oxygenated sediments, using PCR, DGGE and oligonucleotide probe hybridisation

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