Literature DB >> 28072419

An acid-tolerant ammonia-oxidizing γ-proteobacterium from soil.

Masahito Hayatsu1, Kanako Tago1, Ikuo Uchiyama2, Atsushi Toyoda3, Yong Wang1, Yumi Shimomura1, Takashi Okubo1, Futoshi Kurisu4, Yuhei Hirono5, Kunihiko Nonaka5, Hiroko Akiyama1, Takehiko Itoh6, Hideto Takami7.   

Abstract

Nitrification, the microbial oxidation of ammonia to nitrate via nitrite, occurs in a wide range of acidic soils. However, the ammonia-oxidizing bacteria (AOB) that have been isolated from soil to date are acid-sensitive. Here we report the isolation and characterization of an acid-adapted AOB from an acidic agricultural soil. The isolated AOB, strain TAO100, is classified within the Gammaproteobacteria based on phylogenetic characteristics. TAO100 can grow in the pH range of 5-7.5 and survive in highly acidic conditions until pH 2 by forming cell aggregates. Whereas all known gammaproteobacterial AOB (γ-AOB) species, which have been isolated from marine and saline aquatic environments, are halophiles, TAO100 is not phenotypically halophilic. Thus, TAO100 represents the first soil-originated and non-halophilic γ-AOB. The TAO100 genome is considerably smaller than those of other γ-AOB and lacks several genes associated with salt tolerance which are unnecessary for survival in soil. The ammonia monooxygenase subunit A gene of TAO100 and its transcript are higher in abundance than those of ammonia-oxidizing archaea and betaproteobacterial AOB in the strongly acidic soil. These results indicate that TAO100 plays an important role in the nitrification of acidic soils. Based on these results, we propose TAO100 as a novel species of a new genus, Candidatus Nitrosoglobus terrae.

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Year:  2017        PMID: 28072419      PMCID: PMC5437925          DOI: 10.1038/ismej.2016.191

Source DB:  PubMed          Journal:  ISME J        ISSN: 1751-7362            Impact factor:   10.302


  46 in total

1.  Nitrification at Low pH by Aggregated Chemolithotrophic Bacteria.

Authors:  W De Boer; P J Gunnewiek; M Veenhuis; E Bock; H J Laanbroek
Journal:  Appl Environ Microbiol       Date:  1991-12       Impact factor: 4.792

2.  Quantitative analyses of ammonia-oxidizing archaea (AOA) and ammonia-oxidizing bacteria (AOB) in fields with different soil types.

Authors:  Sho Morimoto; Masahito Hayatsu; Yuko Takada Hoshino; Kazunari Nagaoka; Masatsugu Yamazaki; Toshihiko Karasawa; Makoto Takenaka; Hiroko Akiyama
Journal:  Microbes Environ       Date:  2011-05-17       Impact factor: 2.912

3.  FastTree 2--approximately maximum-likelihood trees for large alignments.

Authors:  Morgan N Price; Paramvir S Dehal; Adam P Arkin
Journal:  PLoS One       Date:  2010-03-10       Impact factor: 3.240

4.  Revision of N2O-producing pathways in the ammonia-oxidizing bacterium Nitrosomonas europaea ATCC 19718.

Authors:  Jessica A Kozlowski; Jennifer Price; Lisa Y Stein
Journal:  Appl Environ Microbiol       Date:  2014-06-06       Impact factor: 4.792

Review 5.  Molecular aspects of bacterial pH sensing and homeostasis.

Authors:  Terry A Krulwich; George Sachs; Etana Padan
Journal:  Nat Rev Microbiol       Date:  2011-04-05       Impact factor: 60.633

6.  Whole-genome analysis of the ammonia-oxidizing bacterium, Nitrosomonas eutropha C91: implications for niche adaptation.

Authors:  Lisa Y Stein; Daniel J Arp; Paul M Berube; Patrick S G Chain; Loren Hauser; Mike S M Jetten; Martin G Klotz; Frank W Larimer; Jeanette M Norton; Huub J M Op den Camp; Maria Shin; Xueming Wei
Journal:  Environ Microbiol       Date:  2007-12       Impact factor: 5.491

7.  Evaluation method for the potential functionome harbored in the genome and metagenome.

Authors:  Hideto Takami; Takeaki Taniguchi; Yuki Moriya; Tomomi Kuwahara; Minoru Kanehisa; Susumu Goto
Journal:  BMC Genomics       Date:  2012-12-12       Impact factor: 3.969

8.  Characterisation of terrestrial acidophilic archaeal ammonia oxidisers and their inhibition and stimulation by organic compounds.

Authors:  Laura E Lehtovirta-Morley; Chaorong Ge; Jenna Ross; Huaiying Yao; Graeme W Nicol; James I Prosser
Journal:  FEMS Microbiol Ecol       Date:  2014-07-31       Impact factor: 4.194

9.  Multiple genome alignment for identifying the core structure among moderately related microbial genomes.

Authors:  Ikuo Uchiyama
Journal:  BMC Genomics       Date:  2008-10-31       Impact factor: 3.969

10.  Complete nitrification by Nitrospira bacteria.

Authors:  Holger Daims; Elena V Lebedeva; Petra Pjevac; Ping Han; Craig Herbold; Mads Albertsen; Nico Jehmlich; Marton Palatinszky; Julia Vierheilig; Alexandr Bulaev; Rasmus H Kirkegaard; Martin von Bergen; Thomas Rattei; Bernd Bendinger; Per H Nielsen; Michael Wagner
Journal:  Nature       Date:  2015-11-26       Impact factor: 49.962
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  18 in total

1.  A Physiological and Genomic Comparison of Nitrosomonas Cluster 6a and 7 Ammonia-Oxidizing Bacteria.

Authors:  Christopher J Sedlacek; Brian McGowan; Yuichi Suwa; Luis Sayavedra-Soto; Hendrikus J Laanbroek; Lisa Y Stein; Jeanette M Norton; Martin G Klotz; Annette Bollmann
Journal:  Microb Ecol       Date:  2019-04-11       Impact factor: 4.552

2.  The Responses of Ammonia-Oxidizing Microorganisms to Different Environmental Factors Determine Their Elevational Distribution and Assembly Patterns.

Authors:  Yongping Kou; Chaonan Li; Bo Tu; Jiabao Li; Xiangzhen Li
Journal:  Microb Ecol       Date:  2022-07-16       Impact factor: 4.192

Review 3.  Improving Nitrogen Use Efficiency in Aerobic Rice Based on Insights Into the Ecophysiology of Archaeal and Bacterial Ammonia Oxidizers.

Authors:  Muhammad Shahbaz Farooq; Muhammad Uzair; Zubaira Maqbool; Sajid Fiaz; Muhammad Yousuf; Seung Hwan Yang; Muhammad Ramzan Khan
Journal:  Front Plant Sci       Date:  2022-06-13       Impact factor: 6.627

4.  Salt tolerance-based niche differentiation of soil ammonia oxidizers.

Authors:  Xiangxin Sun; Jun Zhao; Xue Zhou; Qicheng Bei; Weiwei Xia; Bingzi Zhao; Jiabao Zhang; Zhongjun Jia
Journal:  ISME J       Date:  2021-08-13       Impact factor: 10.302

5.  Enrichment and physiological characterization of a novel comammox Nitrospira indicates ammonium inhibition of complete nitrification.

Authors:  Dimitra Sakoula; Hanna Koch; Jeroen Frank; Mike S M Jetten; Maartje A H J van Kessel; Sebastian Lücker
Journal:  ISME J       Date:  2020-11-13       Impact factor: 10.302

6.  Ammonia-oxidising archaea living at low pH: Insights from comparative genomics.

Authors:  Craig W Herbold; Laura E Lehtovirta-Morley; Man-Young Jung; Nico Jehmlich; Bela Hausmann; Ping Han; Alexander Loy; Michael Pester; Luis A Sayavedra-Soto; Sung-Keun Rhee; James I Prosser; Graeme W Nicol; Michael Wagner; Cécile Gubry-Rangin
Journal:  Environ Microbiol       Date:  2017-12-04       Impact factor: 5.491

7.  Kinetic analysis of a complete nitrifier reveals an oligotrophic lifestyle.

Authors:  K Dimitri Kits; Christopher J Sedlacek; Elena V Lebedeva; Ping Han; Alexandr Bulaev; Petra Pjevac; Anne Daebeler; Stefano Romano; Mads Albertsen; Lisa Y Stein; Holger Daims; Michael Wagner
Journal:  Nature       Date:  2017-08-23       Impact factor: 49.962

8.  Substrate regulation leads to differential responses of microbial ammonia-oxidizing communities to ocean warming.

Authors:  Zhen-Zhen Zheng; Li-Wei Zheng; Min Nina Xu; Ehui Tan; David A Hutchins; Wenchao Deng; Yao Zhang; Dalin Shi; Minhan Dai; Shuh-Ji Kao
Journal:  Nat Commun       Date:  2020-07-14       Impact factor: 14.919

9.  Nitrite-Oxidizing Bacteria Community Composition and Diversity Are Influenced by Fertilizer Regimes, but Are Independent of the Soil Aggregate in Acidic Subtropical Red Soil.

Authors:  Shun Han; Xiang Li; Xuesong Luo; Shilin Wen; Wenli Chen; Qiaoyun Huang
Journal:  Front Microbiol       Date:  2018-05-08       Impact factor: 5.640

10.  Differential Ecosystem Function Stability of Ammonia-Oxidizing Archaea and Bacteria following Short-Term Environmental Perturbation.

Authors:  Jun Zhao; Yiyu Meng; Julia Drewer; Ute M Skiba; James I Prosser; Cécile Gubry-Rangin
Journal:  mSystems       Date:  2020-06-16       Impact factor: 6.496
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