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Analysis of ß-subgroup proteobacterial ammonia oxidizer populations in soil by denaturing gradient gel electrophoresis analysis and hierarchical phylogenetic probing

Stephen, J.R. and Kowalchuk, G.A. and Bruns, M.A. and McCaig, A.E. and Phillips, C.B. and Embley, T.M. and Prosser, J.I. (1998) Analysis of ß-subgroup proteobacterial ammonia oxidizer populations in soil by denaturing gradient gel electrophoresis analysis and hierarchical phylogenetic probing. Applied and Environmental Microbiology, 64, 2958-2965. ISSN 0099-2240.

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Official URL: http://aem.asm.org/content/64/8/2958.abstract

Abstract

A combination of denaturing gradient gel electrophoresis (DGGE) and oligonucleotide probing was used to investigate the influence of soil pH on the compositions of natural populations of autotrophic beta-subgromp proteobacterial ammonia oxidizers. PCR primers specific to this group were used to amplify 16S ribosomal DIVA (rDNA) from soils maintained for 36 years at a range of pH values, and PCR products were analyzed by DGGE, Genus- and cluster-specific probes were designed to bind to sequences within the region amplified by these primers, A sequence specific to all beta-subgroup ammonia oxidizers could not be identified, but probes specific for Nitrosospira clusters 1 to 4 and Nitrosomonas clusters 6 and 7 (J. R. Stephen, A. E. McCaig, Z. Smith, J. I. Presser, and T. M. Embley, Appl. Environ. Microbiol. 62:4147-4154, 1996) were designed. Elution profiles of probes against target sequences and closely related nontarget sequences indicated a requirement for high-stringency hybridization conditions to distinguish between different clusters, DGGE banding patterns suggested the presence of Nitrosomonas cluster 6a and Nitrosospira clusters 2, 3, and 4 in all soil plots, but results mere ambiguous because of overlapping banding patterns, Unambiguous hand identification of the same clusters was achieved by combined DGGE and probing of blots with the cluster-specific radiolabelled probes, The relative intensities of hybridization signals provided information on the apparent selection of different Nitrosospira genotypes in samples of soil of different pHs. The signal from the Nitrosospira cluster 3 probe decreased significantly, relative to an internal control probe, with decreasing soil pH in the range of 6.6 to 3.9, while Nitrosospira cluster 2 hybridization signals increased with increasing soil acidity. Signals from Nitrosospira cluster 4 were greatest at pH 5.5, decreasing at lower and higher values, while Nitrosomonas cluster 6a signals did not vary significantly with pH. These findings are in agreement with a previous molecular study (J, R Stephen, A. E. McCaig, Z. Smith, J. I, Presser, and T, M. Embley, Appl, Environ. Microbiol 62:4147-4154, 1996) of the same sites, which demonstrated the presence of the same four clusters of ammonia oxidizers and indicated that selection might be occurring for clusters 2 and 3 at acid and neutral pHs, respectively. The two studies used different sets of PCR primers for amplification of 16S rDNA sequences from soil, and the similar findings suggest that PCR bias was unlikely to be a significant factor, The present study demonstrates the value of DGGE and probing for rapid analysis of natural soil communities of beta-subgroup proteobacterial ammonia oxidizers, indicates significant pH-associated differences in Nitrosospira populations, and suggests that Nitrosospira cluster 2 may be of significance for ammonia- oxidizing activity in acid soils. [KEYWORDS: 16s ribosomal-rna; nitrifying bacteria; gene-sequences; low ph; autotrophic nitrification; purple bacteria; diversity; organization; subdivision; oxidation]

Item Type:Article
Institutes:Nederlands Instituut voor Ecologie (NIOO)
ID Code:10680
Deposited On:25 Nov 2011 01:00
Last Modified:31 Mar 2014 11:01

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