Cargando…

Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera

Among other attributes, the Betaproteobacterial genus Azoarcus has biotechnological importance for plant growth-promotion and remediation of petroleum waste-polluted water and soils. It comprises at least two phylogenetically distinct groups. The “plant-associated” group includes strains that are is...

Descripción completa

Detalles Bibliográficos
Autores principales: Raittz, Roberto Tadeu, Reginatto De Pierri, Camilla, Maluk, Marta, Bueno Batista, Marcelo, Carmona, Manuel, Junghare, Madan, Faoro, Helisson, Cruz, Leonardo M., Battistoni, Federico, de Souza, Emanuel, Pedrosa, Fábio de Oliveira, Chen, Wen-Ming, Poole, Philip S., Dixon, Ray A., James, Euan K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7825797/
https://www.ncbi.nlm.nih.gov/pubmed/33430351
http://dx.doi.org/10.3390/genes12010071
_version_ 1783640391642251264
author Raittz, Roberto Tadeu
Reginatto De Pierri, Camilla
Maluk, Marta
Bueno Batista, Marcelo
Carmona, Manuel
Junghare, Madan
Faoro, Helisson
Cruz, Leonardo M.
Battistoni, Federico
de Souza, Emanuel
Pedrosa, Fábio de Oliveira
Chen, Wen-Ming
Poole, Philip S.
Dixon, Ray A.
James, Euan K.
author_facet Raittz, Roberto Tadeu
Reginatto De Pierri, Camilla
Maluk, Marta
Bueno Batista, Marcelo
Carmona, Manuel
Junghare, Madan
Faoro, Helisson
Cruz, Leonardo M.
Battistoni, Federico
de Souza, Emanuel
Pedrosa, Fábio de Oliveira
Chen, Wen-Ming
Poole, Philip S.
Dixon, Ray A.
James, Euan K.
author_sort Raittz, Roberto Tadeu
collection PubMed
description Among other attributes, the Betaproteobacterial genus Azoarcus has biotechnological importance for plant growth-promotion and remediation of petroleum waste-polluted water and soils. It comprises at least two phylogenetically distinct groups. The “plant-associated” group includes strains that are isolated from the rhizosphere or root interior of the C4 plant Kallar Grass, but also strains from soil and/or water; all are considered to be obligate aerobes and all are diazotrophic. The other group (now partly incorporated into the new genus Aromatoleum) comprises a diverse range of species and strains that live in water or soil that is contaminated with petroleum and/or aromatic compounds; all are facultative or obligate anaerobes. Some are diazotrophs. A comparative genome analysis of 32 genomes from 30 Azoarcus-Aromatoleum strains was performed in order to delineate generic boundaries more precisely than the single gene, 16S rRNA, that has been commonly used in bacterial taxonomy. The origin of diazotrophy in Azoarcus-Aromatoleum was also investigated by comparing full-length sequences of nif genes, and by physiological measurements of nitrogenase activity using the acetylene reduction assay. Based on average nucleotide identity (ANI) and whole genome analyses, three major groups could be discerned: (i) Azoarcus comprising Az. communis, Az. indigens and Az. olearius, and two unnamed species complexes, (ii) Aromatoleum Group 1 comprising Ar. anaerobium, Ar. aromaticum, Ar. bremense, and Ar. buckelii, and (iii) Aromatoleum Group 2 comprising Ar. diolicum, Ar. evansii, Ar. petrolei, Ar. toluclasticum, Ar. tolulyticum, Ar. toluolicum, and Ar. toluvorans. Single strain lineages such as Azoarcus sp. KH32C, Az. pumilus, and Az. taiwanensis were also revealed. Full length sequences of nif-cluster genes revealed two groups of diazotrophs in Azoarcus-Aromatoleum with nif being derived from Dechloromonas in Azoarcus sensu stricto (and two Thauera strains) and from Azospira in Aromatoleum Group 2. Diazotrophy was confirmed in several strains, and for the first time in Az. communis LMG5514, Azoarcus sp. TTM-91 and Ar. toluolicum T(T). In terms of ecology, with the exception of a few plant-associated strains in Azoarcus (s.s.), across the group, most strains/species are found in soil and water (often contaminated with petroleum or related aromatic compounds), sewage sludge, and seawater. The possession of nar, nap, nir, nor, and nos genes by most Azoarcus-Aromatoleum strains suggests that they have the potential to derive energy through anaerobic nitrate respiration, so this ability cannot be usefully used as a phenotypic marker to distinguish genera. However, the possession of bzd genes indicating the ability to degrade benzoate anaerobically plus the type of diazotrophy (aerobic vs. anaerobic) could, after confirmation of their functionality, be considered as distinguishing phenotypes in any new generic delineations. The taxonomy of the Azoarcus-Aromatoleum group should be revisited; retaining the generic name Azoarcus for its entirety, or creating additional genera are both possible outcomes.
format Online
Article
Text
id pubmed-7825797
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-78257972021-01-24 Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera Raittz, Roberto Tadeu Reginatto De Pierri, Camilla Maluk, Marta Bueno Batista, Marcelo Carmona, Manuel Junghare, Madan Faoro, Helisson Cruz, Leonardo M. Battistoni, Federico de Souza, Emanuel Pedrosa, Fábio de Oliveira Chen, Wen-Ming Poole, Philip S. Dixon, Ray A. James, Euan K. Genes (Basel) Article Among other attributes, the Betaproteobacterial genus Azoarcus has biotechnological importance for plant growth-promotion and remediation of petroleum waste-polluted water and soils. It comprises at least two phylogenetically distinct groups. The “plant-associated” group includes strains that are isolated from the rhizosphere or root interior of the C4 plant Kallar Grass, but also strains from soil and/or water; all are considered to be obligate aerobes and all are diazotrophic. The other group (now partly incorporated into the new genus Aromatoleum) comprises a diverse range of species and strains that live in water or soil that is contaminated with petroleum and/or aromatic compounds; all are facultative or obligate anaerobes. Some are diazotrophs. A comparative genome analysis of 32 genomes from 30 Azoarcus-Aromatoleum strains was performed in order to delineate generic boundaries more precisely than the single gene, 16S rRNA, that has been commonly used in bacterial taxonomy. The origin of diazotrophy in Azoarcus-Aromatoleum was also investigated by comparing full-length sequences of nif genes, and by physiological measurements of nitrogenase activity using the acetylene reduction assay. Based on average nucleotide identity (ANI) and whole genome analyses, three major groups could be discerned: (i) Azoarcus comprising Az. communis, Az. indigens and Az. olearius, and two unnamed species complexes, (ii) Aromatoleum Group 1 comprising Ar. anaerobium, Ar. aromaticum, Ar. bremense, and Ar. buckelii, and (iii) Aromatoleum Group 2 comprising Ar. diolicum, Ar. evansii, Ar. petrolei, Ar. toluclasticum, Ar. tolulyticum, Ar. toluolicum, and Ar. toluvorans. Single strain lineages such as Azoarcus sp. KH32C, Az. pumilus, and Az. taiwanensis were also revealed. Full length sequences of nif-cluster genes revealed two groups of diazotrophs in Azoarcus-Aromatoleum with nif being derived from Dechloromonas in Azoarcus sensu stricto (and two Thauera strains) and from Azospira in Aromatoleum Group 2. Diazotrophy was confirmed in several strains, and for the first time in Az. communis LMG5514, Azoarcus sp. TTM-91 and Ar. toluolicum T(T). In terms of ecology, with the exception of a few plant-associated strains in Azoarcus (s.s.), across the group, most strains/species are found in soil and water (often contaminated with petroleum or related aromatic compounds), sewage sludge, and seawater. The possession of nar, nap, nir, nor, and nos genes by most Azoarcus-Aromatoleum strains suggests that they have the potential to derive energy through anaerobic nitrate respiration, so this ability cannot be usefully used as a phenotypic marker to distinguish genera. However, the possession of bzd genes indicating the ability to degrade benzoate anaerobically plus the type of diazotrophy (aerobic vs. anaerobic) could, after confirmation of their functionality, be considered as distinguishing phenotypes in any new generic delineations. The taxonomy of the Azoarcus-Aromatoleum group should be revisited; retaining the generic name Azoarcus for its entirety, or creating additional genera are both possible outcomes. MDPI 2021-01-07 /pmc/articles/PMC7825797/ /pubmed/33430351 http://dx.doi.org/10.3390/genes12010071 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Raittz, Roberto Tadeu
Reginatto De Pierri, Camilla
Maluk, Marta
Bueno Batista, Marcelo
Carmona, Manuel
Junghare, Madan
Faoro, Helisson
Cruz, Leonardo M.
Battistoni, Federico
de Souza, Emanuel
Pedrosa, Fábio de Oliveira
Chen, Wen-Ming
Poole, Philip S.
Dixon, Ray A.
James, Euan K.
Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera
title Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera
title_full Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera
title_fullStr Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera
title_full_unstemmed Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera
title_short Comparative Genomics Provides Insights into the Taxonomy of Azoarcus and Reveals Separate Origins of Nif Genes in the Proposed Azoarcus and Aromatoleum Genera
title_sort comparative genomics provides insights into the taxonomy of azoarcus and reveals separate origins of nif genes in the proposed azoarcus and aromatoleum genera
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7825797/
https://www.ncbi.nlm.nih.gov/pubmed/33430351
http://dx.doi.org/10.3390/genes12010071
work_keys_str_mv AT raittzrobertotadeu comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT reginattodepierricamilla comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT malukmarta comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT buenobatistamarcelo comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT carmonamanuel comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT jungharemadan comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT faorohelisson comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT cruzleonardom comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT battistonifederico comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT desouzaemanuel comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT pedrosafabiodeoliveira comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT chenwenming comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT poolephilips comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT dixonraya comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera
AT jameseuank comparativegenomicsprovidesinsightsintothetaxonomyofazoarcusandrevealsseparateoriginsofnifgenesintheproposedazoarcusandaromatoleumgenera