Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899.
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2015 |
| Outros Autores: | , , , , , , , , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice) |
| Texto Completo: | http://www.alice.cnptia.embrapa.br/alice/handle/doc/1039242 |
Resumo: | Transcription of nodulation genes in rhizobial species is orchestrated by the regulatory nodD gene. Rhizobium tropici strain CIAT 899 is an intriguing species in possessing features such as broad host range, high tolerance of abiotic stresses and, especially, by carrying the highest known number of nodD genes?five?and the greatest diversity of Nod factors (lipochitooligosaccharides, LCOs). Here we shed light on the roles of the multiple nodD genes of CIAT 899 by reporting, for the first time, results obtained with nodD3, nodD4 and nodD5 mutants. The three nodD mutants were built by insertion of ? interposon. Nod factors were purified and identified by LC-MS/MS analyses. In addition, nodD1 and nodC relative gene expressions were measured by quantitative RT-PCR in the wt and derivative mutant strains. Phenotypic traits such as exopolysaccharide (EPS), lipopolysaccharide (LPS), swimming and swarming motilities, biofilm formation and indole acetid acid (IAA) production were also perfomed. All these experiments were carried out in presence of both inducers of CIAT 899, apigenin and salt. Finally, nodulation assays were evaluated in up to six different legumes, including common bean (Phaseolus vulgaris L.). Phenotypic and symbiotic properties, Nod factors and gene expression of nodD3, nodD4 and nodD5 mutants were compared with those of the wild-type (WT) CIAT 899, both in the presence and in the absence of the nod-geneinducing molecule apigenin and of saline stress. No differences between the mutants and the WT were observed in exopolysaccharide (EPS) and lipopolysaccharide (LPS) profiles, motility, indole acetic acid (IAA) synthesis or biofilm production, either in the presence, or in the absence of inducers. Nodulation studies demonstrated the most complex regulatory system described so far, requiring from one (Leucaena leucocephala, Lotus burtii) to four (Lotus japonicus) nodD genes. Up to 38 different structures of Nod factors were detected, being higher under salt stress, except for the nodD5 mutant; in addition, a high number of structures was synthesized by the nodD4 mutant in the absence of any inducer. Probable activator (nodD3 and nodD5) or repressor roles (nodD4), possibly via nodD1 and/or nodD2, were attributed to the three nodD genes. Expression of nodC, nodD1 and each nodD studied by RT-qPCR confirmed that nodD3 is an activator of nodD1, both in the presence of apigenin and salt stress. In contrast, nodD4 might be an inducer with apigenin and a repressor under saline stress, whereas nodD5 was an inducer under both conditions. |
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Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899.RhizobiumFixação de nitrogênioBacteriologia do soloNodulaçãoBacteriologyNitrogen fixationNodulationTranscription of nodulation genes in rhizobial species is orchestrated by the regulatory nodD gene. Rhizobium tropici strain CIAT 899 is an intriguing species in possessing features such as broad host range, high tolerance of abiotic stresses and, especially, by carrying the highest known number of nodD genes?five?and the greatest diversity of Nod factors (lipochitooligosaccharides, LCOs). Here we shed light on the roles of the multiple nodD genes of CIAT 899 by reporting, for the first time, results obtained with nodD3, nodD4 and nodD5 mutants. The three nodD mutants were built by insertion of ? interposon. Nod factors were purified and identified by LC-MS/MS analyses. In addition, nodD1 and nodC relative gene expressions were measured by quantitative RT-PCR in the wt and derivative mutant strains. Phenotypic traits such as exopolysaccharide (EPS), lipopolysaccharide (LPS), swimming and swarming motilities, biofilm formation and indole acetid acid (IAA) production were also perfomed. All these experiments were carried out in presence of both inducers of CIAT 899, apigenin and salt. Finally, nodulation assays were evaluated in up to six different legumes, including common bean (Phaseolus vulgaris L.). Phenotypic and symbiotic properties, Nod factors and gene expression of nodD3, nodD4 and nodD5 mutants were compared with those of the wild-type (WT) CIAT 899, both in the presence and in the absence of the nod-geneinducing molecule apigenin and of saline stress. No differences between the mutants and the WT were observed in exopolysaccharide (EPS) and lipopolysaccharide (LPS) profiles, motility, indole acetic acid (IAA) synthesis or biofilm production, either in the presence, or in the absence of inducers. Nodulation studies demonstrated the most complex regulatory system described so far, requiring from one (Leucaena leucocephala, Lotus burtii) to four (Lotus japonicus) nodD genes. Up to 38 different structures of Nod factors were detected, being higher under salt stress, except for the nodD5 mutant; in addition, a high number of structures was synthesized by the nodD4 mutant in the absence of any inducer. Probable activator (nodD3 and nodD5) or repressor roles (nodD4), possibly via nodD1 and/or nodD2, were attributed to the three nodD genes. Expression of nodC, nodD1 and each nodD studied by RT-qPCR confirmed that nodD3 is an activator of nodD1, both in the presence of apigenin and salt stress. In contrast, nodD4 might be an inducer with apigenin and a repressor under saline stress, whereas nodD5 was an inducer under both conditions.PABLO DEL CERRO, Universidad de Sevilla; AMANDA ALVES PAIVA ROLLA-SANTOS; DOUGLAS FABIANO GOMES; BETTINA BERQUÓ MARKS; MARÍA DEL ROSARIO ESPUNY, Universidad de Sevilla; MIGUEL ÁNGEL RODRÍGUEZ-CARVAJAL, Universidad de Sevilla; MARÍA EUGENIA SORIA-DÍAZ, CITIUS; ANDRÉ SHIGUEYOSHI NAKATAN; MARIANGELA HUNGRIA DA CUNHA, CNPSO; FRANCISCO JAVIER OLLERO; MANUEL MEGÍAS.CERRO, P. delROLLA-SANTOS, A. A. P.GOMES, D. F.MARKS, B. B.ESPUNY, M. del R.RODRÍGUEZ-CARVAJAL, M. A.SORIA-DÍAZ, M. E.NAKATANI, A. S.HUNGRIA, M.JAVIER OLLERO, F.MEGÍAS, M.2016-03-01T11:11:11Z2016-03-01T11:11:11Z2016-03-0120152017-06-19T11:11:11Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleBMC Genomics, v. 16, n. 1, p. 864, Oct. 2015.1471-2164http://www.alice.cnptia.embrapa.br/alice/handle/doc/103924210.1186/s12864-015-2033-zenginfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice)instname:Empresa Brasileira de Pesquisa Agropecuária (Embrapa)instacron:EMBRAPA2017-08-15T22:55:27Zoai:www.alice.cnptia.embrapa.br:doc/1039242Repositório InstitucionalPUBhttps://www.alice.cnptia.embrapa.br/oai/requestcg-riaa@embrapa.bropendoar:21542017-08-15T22:55:27Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice) - Empresa Brasileira de Pesquisa Agropecuária (Embrapa)false |
| dc.title.none.fl_str_mv |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. |
| title |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. |
| spellingShingle |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. CERRO, P. del Rhizobium Fixação de nitrogênio Bacteriologia do solo Nodulação Bacteriology Nitrogen fixation Nodulation |
| title_short |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. |
| title_full |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. |
| title_fullStr |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. |
| title_full_unstemmed |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. |
| title_sort |
Opening the "black box" of nodD3, nodD4 and nodD5 genes of Rhizobium tropici strain CIAT 899. |
| author |
CERRO, P. del |
| author_facet |
CERRO, P. del ROLLA-SANTOS, A. A. P. GOMES, D. F. MARKS, B. B. ESPUNY, M. del R. RODRÍGUEZ-CARVAJAL, M. A. SORIA-DÍAZ, M. E. NAKATANI, A. S. HUNGRIA, M. JAVIER OLLERO, F. MEGÍAS, M. |
| author_role |
author |
| author2 |
ROLLA-SANTOS, A. A. P. GOMES, D. F. MARKS, B. B. ESPUNY, M. del R. RODRÍGUEZ-CARVAJAL, M. A. SORIA-DÍAZ, M. E. NAKATANI, A. S. HUNGRIA, M. JAVIER OLLERO, F. MEGÍAS, M. |
| author2_role |
author author author author author author author author author author |
| dc.contributor.none.fl_str_mv |
PABLO DEL CERRO, Universidad de Sevilla; AMANDA ALVES PAIVA ROLLA-SANTOS; DOUGLAS FABIANO GOMES; BETTINA BERQUÓ MARKS; MARÍA DEL ROSARIO ESPUNY, Universidad de Sevilla; MIGUEL ÁNGEL RODRÍGUEZ-CARVAJAL, Universidad de Sevilla; MARÍA EUGENIA SORIA-DÍAZ, CITIUS; ANDRÉ SHIGUEYOSHI NAKATAN; MARIANGELA HUNGRIA DA CUNHA, CNPSO; FRANCISCO JAVIER OLLERO; MANUEL MEGÍAS. |
| dc.contributor.author.fl_str_mv |
CERRO, P. del ROLLA-SANTOS, A. A. P. GOMES, D. F. MARKS, B. B. ESPUNY, M. del R. RODRÍGUEZ-CARVAJAL, M. A. SORIA-DÍAZ, M. E. NAKATANI, A. S. HUNGRIA, M. JAVIER OLLERO, F. MEGÍAS, M. |
| dc.subject.por.fl_str_mv |
Rhizobium Fixação de nitrogênio Bacteriologia do solo Nodulação Bacteriology Nitrogen fixation Nodulation |
| topic |
Rhizobium Fixação de nitrogênio Bacteriologia do solo Nodulação Bacteriology Nitrogen fixation Nodulation |
| description |
Transcription of nodulation genes in rhizobial species is orchestrated by the regulatory nodD gene. Rhizobium tropici strain CIAT 899 is an intriguing species in possessing features such as broad host range, high tolerance of abiotic stresses and, especially, by carrying the highest known number of nodD genes?five?and the greatest diversity of Nod factors (lipochitooligosaccharides, LCOs). Here we shed light on the roles of the multiple nodD genes of CIAT 899 by reporting, for the first time, results obtained with nodD3, nodD4 and nodD5 mutants. The three nodD mutants were built by insertion of ? interposon. Nod factors were purified and identified by LC-MS/MS analyses. In addition, nodD1 and nodC relative gene expressions were measured by quantitative RT-PCR in the wt and derivative mutant strains. Phenotypic traits such as exopolysaccharide (EPS), lipopolysaccharide (LPS), swimming and swarming motilities, biofilm formation and indole acetid acid (IAA) production were also perfomed. All these experiments were carried out in presence of both inducers of CIAT 899, apigenin and salt. Finally, nodulation assays were evaluated in up to six different legumes, including common bean (Phaseolus vulgaris L.). Phenotypic and symbiotic properties, Nod factors and gene expression of nodD3, nodD4 and nodD5 mutants were compared with those of the wild-type (WT) CIAT 899, both in the presence and in the absence of the nod-geneinducing molecule apigenin and of saline stress. No differences between the mutants and the WT were observed in exopolysaccharide (EPS) and lipopolysaccharide (LPS) profiles, motility, indole acetic acid (IAA) synthesis or biofilm production, either in the presence, or in the absence of inducers. Nodulation studies demonstrated the most complex regulatory system described so far, requiring from one (Leucaena leucocephala, Lotus burtii) to four (Lotus japonicus) nodD genes. Up to 38 different structures of Nod factors were detected, being higher under salt stress, except for the nodD5 mutant; in addition, a high number of structures was synthesized by the nodD4 mutant in the absence of any inducer. Probable activator (nodD3 and nodD5) or repressor roles (nodD4), possibly via nodD1 and/or nodD2, were attributed to the three nodD genes. Expression of nodC, nodD1 and each nodD studied by RT-qPCR confirmed that nodD3 is an activator of nodD1, both in the presence of apigenin and salt stress. In contrast, nodD4 might be an inducer with apigenin and a repressor under saline stress, whereas nodD5 was an inducer under both conditions. |
| publishDate |
2015 |
| dc.date.none.fl_str_mv |
2015 2016-03-01T11:11:11Z 2016-03-01T11:11:11Z 2016-03-01 2017-06-19T11:11:11Z |
| dc.type.status.fl_str_mv |
info:eu-repo/semantics/publishedVersion |
| dc.type.driver.fl_str_mv |
info:eu-repo/semantics/article |
| format |
article |
| status_str |
publishedVersion |
| dc.identifier.uri.fl_str_mv |
BMC Genomics, v. 16, n. 1, p. 864, Oct. 2015. 1471-2164 http://www.alice.cnptia.embrapa.br/alice/handle/doc/1039242 10.1186/s12864-015-2033-z |
| identifier_str_mv |
BMC Genomics, v. 16, n. 1, p. 864, Oct. 2015. 1471-2164 10.1186/s12864-015-2033-z |
| url |
http://www.alice.cnptia.embrapa.br/alice/handle/doc/1039242 |
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eng |
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openAccess |
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Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice) |
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Repositório Institucional da EMBRAPA (Repository Open Access to Scientific Information from EMBRAPA - Alice) - Empresa Brasileira de Pesquisa Agropecuária (Embrapa) |
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cg-riaa@embrapa.br |
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