Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment

ABSTRACT Nitrite-oxidizing bacteria (NOB) are responsible for the second step of nitrification in natural and engineered ecosystems. The recently discovered genus Nitrotoga belongs to the Betaproteobacteria and potentially has high environmental importance. Although environmental clones affiliated w...

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Published in:Applied and Environmental Microbiology
Main Authors: Ishii, Kento, Fujitani, Hirotsugu, Soh, Kentaro, Nakagawa, Tatsunori, Takahashi, Reiji, Tsuneda, Satoshi
Other Authors: Müller, Volker, Mayekawa Houonkai Foundation, Institute for Fermentation, Osaka, MEXT | Japan Society for the Promotion of Science
Format: Article in Journal/Newspaper
Language:English
Published: American Society for Microbiology 2017
Subjects:
permafrost
Online Access:http://dx.doi.org/10.1128/aem.00549-17
https://journals.asm.org/doi/pdf/10.1128/AEM.00549-17
id crasmicro:10.1128/aem.00549-17
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spelling crasmicro:10.1128/aem.00549-17 2024-09-09T20:03:20+00:00 Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment Ishii, Kento Fujitani, Hirotsugu Soh, Kentaro Nakagawa, Tatsunori Takahashi, Reiji Tsuneda, Satoshi Müller, Volker Mayekawa Houonkai Foundation Institute for Fermentation, Osaka MEXT | Japan Society for the Promotion of Science 2017 http://dx.doi.org/10.1128/aem.00549-17 https://journals.asm.org/doi/pdf/10.1128/AEM.00549-17 en eng American Society for Microbiology https://journals.asm.org/non-commercial-tdm-license Applied and Environmental Microbiology volume 83, issue 14 ISSN 0099-2240 1098-5336 journal-article 2017 crasmicro https://doi.org/10.1128/aem.00549-17 2024-08-26T04:06:54Z ABSTRACT Nitrite-oxidizing bacteria (NOB) are responsible for the second step of nitrification in natural and engineered ecosystems. The recently discovered genus Nitrotoga belongs to the Betaproteobacteria and potentially has high environmental importance. Although environmental clones affiliated with Nitrotoga are widely distributed, the limited number of cultivated Nitrotoga spp. results in a poor understanding of their ecophysiological features. In this study, we successfully enriched the nonmarine cold-adapted Nitrotoga sp. strain AM1 from coastal sand in an eelgrass zone and investigated its physiological characteristics. Multistep-enrichment approaches led to an increase in the abundance of AM1 to approximately 80% of the total bacterial population. AM1 was the only detectable NOB in the bacterial community. The 16S rRNA gene sequence of AM1 was 99.6% identical to that of “ Candidatus Nitrotoga arctica,” which was enriched from permafrost-affected soil. The highest nitrogen oxidation rate of AM1 was observed at 16°C. The half-saturation constant ( K m ) and the generation time were determined to be 25 μM NO 2 − and 54 h, respectively. The nitrite oxidation rate of AM1 was stimulated at concentrations of <30 mM NH 4 Cl but completely inhibited at 50 mM NH 4 Cl. AM1 can grow well under specific environmental conditions, such as low temperature and in the presence of a relatively high concentration of free ammonia. These results help improve our comprehension of the functional importance of Nitrotoga . IMPORTANCE Nitrite-oxidizing bacteria (NOB) are key players in the second step of nitrification, which is an important process of the nitrogen cycle. Recent studies have suggested that the organisms of the novel NOB genus Nitrotoga were widely distributed and played a functional role in natural and engineered ecosystems. However, only a few Nitrotoga enrichments have been obtained, and little is known about their ecology and physiology. In this study, we successfully enriched a Nitrotoga sp. from sand in a ... Article in Journal/Newspaper permafrost ASM Journals (American Society for Microbiology) Applied and Environmental Microbiology 83 14
institution Open Polar
collection ASM Journals (American Society for Microbiology)
op_collection_id crasmicro
language English
description ABSTRACT Nitrite-oxidizing bacteria (NOB) are responsible for the second step of nitrification in natural and engineered ecosystems. The recently discovered genus Nitrotoga belongs to the Betaproteobacteria and potentially has high environmental importance. Although environmental clones affiliated with Nitrotoga are widely distributed, the limited number of cultivated Nitrotoga spp. results in a poor understanding of their ecophysiological features. In this study, we successfully enriched the nonmarine cold-adapted Nitrotoga sp. strain AM1 from coastal sand in an eelgrass zone and investigated its physiological characteristics. Multistep-enrichment approaches led to an increase in the abundance of AM1 to approximately 80% of the total bacterial population. AM1 was the only detectable NOB in the bacterial community. The 16S rRNA gene sequence of AM1 was 99.6% identical to that of “ Candidatus Nitrotoga arctica,” which was enriched from permafrost-affected soil. The highest nitrogen oxidation rate of AM1 was observed at 16°C. The half-saturation constant ( K m ) and the generation time were determined to be 25 μM NO 2 − and 54 h, respectively. The nitrite oxidation rate of AM1 was stimulated at concentrations of <30 mM NH 4 Cl but completely inhibited at 50 mM NH 4 Cl. AM1 can grow well under specific environmental conditions, such as low temperature and in the presence of a relatively high concentration of free ammonia. These results help improve our comprehension of the functional importance of Nitrotoga . IMPORTANCE Nitrite-oxidizing bacteria (NOB) are key players in the second step of nitrification, which is an important process of the nitrogen cycle. Recent studies have suggested that the organisms of the novel NOB genus Nitrotoga were widely distributed and played a functional role in natural and engineered ecosystems. However, only a few Nitrotoga enrichments have been obtained, and little is known about their ecology and physiology. In this study, we successfully enriched a Nitrotoga sp. from sand in a ...
author2 Müller, Volker
Mayekawa Houonkai Foundation
Institute for Fermentation, Osaka
MEXT | Japan Society for the Promotion of Science
format Article in Journal/Newspaper
author Ishii, Kento
Fujitani, Hirotsugu
Soh, Kentaro
Nakagawa, Tatsunori
Takahashi, Reiji
Tsuneda, Satoshi
spellingShingle Ishii, Kento
Fujitani, Hirotsugu
Soh, Kentaro
Nakagawa, Tatsunori
Takahashi, Reiji
Tsuneda, Satoshi
Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment
author_facet Ishii, Kento
Fujitani, Hirotsugu
Soh, Kentaro
Nakagawa, Tatsunori
Takahashi, Reiji
Tsuneda, Satoshi
author_sort Ishii, Kento
title Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment
title_short Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment
title_full Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment
title_fullStr Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment
title_full_unstemmed Enrichment and Physiological Characterization of a Cold-Adapted Nitrite-Oxidizing Nitrotoga sp. from an Eelgrass Sediment
title_sort enrichment and physiological characterization of a cold-adapted nitrite-oxidizing nitrotoga sp. from an eelgrass sediment
publisher American Society for Microbiology
publishDate 2017
url http://dx.doi.org/10.1128/aem.00549-17
https://journals.asm.org/doi/pdf/10.1128/AEM.00549-17
genre permafrost
genre_facet permafrost
op_source Applied and Environmental Microbiology
volume 83, issue 14
ISSN 0099-2240 1098-5336
op_rights https://journals.asm.org/non-commercial-tdm-license
op_doi https://doi.org/10.1128/aem.00549-17
container_title Applied and Environmental Microbiology
container_volume 83
container_issue 14
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