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The rhizobial type III effector ErnA confers the ability to form nodules in legumes
The rhizobial type III effector ErnA confers the ability to form nodules in legumes
by Teulet, Albin , Jauneau, Alain , Comorge, Virginie , Gressent, Frédéric , Gully, Djamel , Deslandes, Laurent , Okazaki, Shin , Chaintreuil, Clémence , Kaneko, Takakazu , Cartieaux, Fabienne , Nouwen, Nico , Koebnik, Ralf , Arrighi, Jean-François , Fardoux, Joël , Mergaert, Peter , Busset, Nicolas , Giraud, Eric
in Biological Sciences / Bradyrhizobium / Bradyrhizobium - genetics / Bradyrhizobium - metabolism / Ectopic expression / Effectors / Energy transfer / Fabaceae - microbiology / Fluorescence / Fluorescence resonance energy transfer / Genes / Legumes / Leguminous plants / Life Sciences / Microbiology / Mutation / Nitrogenase / Nitrogenase - genetics / Nitrogenase - metabolism / Nod factors / Nodulation / Nodules / Nuclei / Nuclei (cytology) / Nucleic acids / Organogenesis / Organogenesis, Plant - genetics / Organogenesis, Plant - physiology / Plant cells / Plant Root Nodulation - physiology / Plant Roots - metabolism / PNAS Plus / Pseudomonas fluorescens / Pseudomonas fluorescens - genetics / Root nodules / Root Nodules, Plant - metabolism / Symbiosis - physiology / Type III Secretion Systems - metabolism
2019
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The rhizobial type III effector ErnA confers the ability to form nodules in legumes
by Teulet, Albin , Jauneau, Alain , Comorge, Virginie , Gressent, Frédéric , Gully, Djamel , Deslandes, Laurent , Okazaki, Shin , Chaintreuil, Clémence , Kaneko, Takakazu , Cartieaux, Fabienne , Nouwen, Nico , Koebnik, Ralf , Arrighi, Jean-François , Fardoux, Joël , Mergaert, Peter , Busset, Nicolas , Giraud, Eric
in Biological Sciences / Bradyrhizobium / Bradyrhizobium - genetics / Bradyrhizobium - metabolism / Ectopic expression / Effectors / Energy transfer / Fabaceae - microbiology / Fluorescence / Fluorescence resonance energy transfer / Genes / Legumes / Leguminous plants / Life Sciences / Microbiology / Mutation / Nitrogenase / Nitrogenase - genetics / Nitrogenase - metabolism / Nod factors / Nodulation / Nodules / Nuclei / Nuclei (cytology) / Nucleic acids / Organogenesis / Organogenesis, Plant - genetics / Organogenesis, Plant - physiology / Plant cells / Plant Root Nodulation - physiology / Plant Roots - metabolism / PNAS Plus / Pseudomonas fluorescens / Pseudomonas fluorescens - genetics / Root nodules / Root Nodules, Plant - metabolism / Symbiosis - physiology / Type III Secretion Systems - metabolism
2019
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The rhizobial type III effector ErnA confers the ability to form nodules in legumes
The rhizobial type III effector ErnA confers the ability to form nodules in legumes
by Teulet, Albin , Jauneau, Alain , Comorge, Virginie , Gressent, Frédéric , Gully, Djamel , Deslandes, Laurent , Okazaki, Shin , Chaintreuil, Clémence , Kaneko, Takakazu , Cartieaux, Fabienne , Nouwen, Nico , Koebnik, Ralf , Arrighi, Jean-François , Fardoux, Joël , Mergaert, Peter , Busset, Nicolas , Giraud, Eric
in Biological Sciences / Bradyrhizobium / Bradyrhizobium - genetics / Bradyrhizobium - metabolism / Ectopic expression / Effectors / Energy transfer / Fabaceae - microbiology / Fluorescence / Fluorescence resonance energy transfer / Genes / Legumes / Leguminous plants / Life Sciences / Microbiology / Mutation / Nitrogenase / Nitrogenase - genetics / Nitrogenase - metabolism / Nod factors / Nodulation / Nodules / Nuclei / Nuclei (cytology) / Nucleic acids / Organogenesis / Organogenesis, Plant - genetics / Organogenesis, Plant - physiology / Plant cells / Plant Root Nodulation - physiology / Plant Roots - metabolism / PNAS Plus / Pseudomonas fluorescens / Pseudomonas fluorescens - genetics / Root nodules / Root Nodules, Plant - metabolism / Symbiosis - physiology / Type III Secretion Systems - metabolism
2019

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The rhizobial type III effector ErnA confers the ability to form nodules in legumes
The rhizobial type III effector ErnA confers the ability to form nodules in legumes
Journal Article

The rhizobial type III effector ErnA confers the ability to form nodules in legumes

Teulet, Albin,
Jauneau, Alain,
Comorge, Virginie,
Gressent, Frédéric,
Gully, Djamel,
Deslandes, Laurent,
Okazaki, Shin,
Chaintreuil, Clémence,
Kaneko, Takakazu,
Cartieaux, Fabienne,
Nouwen, Nico,
Koebnik, Ralf,
Arrighi, Jean-François,
Fardoux, Joël,
Mergaert, Peter,
Busset, Nicolas,
Giraud, Eric
2019
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Overview
Several Bradyrhizobium species nodulate the leguminous plant Aeschynomene indica in a type III secretion system-dependent manner, independently of Nod factors. To date, the underlying molecular determinants involved in this symbiotic process remain unknown. To identify the rhizobial effectors involved in nodulation, we mutated 23 out of the 27 effector genes predicted in Bradyrhizobium strain ORS3257. The mutation of nopAO increased nodulation and nitrogenase activity, whereas mutation of 5 other effector genes led to various symbiotic defects. The nopM1 and nopP1 mutants induced a reduced number of nodules, some of which displayed large necrotic zones. The nopT and nopAB mutants induced uninfected nodules, and a mutant in a yet-undescribed effector gene lost the capacity for nodule formation. This effector gene, widely conserved among bradyrhizobia, was named ernA for \"effector required for nodulation-A.\" Remarkably, expressing ernA in a strain unable to nodulate A. indica conferred nodulation ability. Upon its delivery by Pseudomonas fluorescens into plant cells, ErnA was specifically targeted to the nucleus, and a fluorescence resonance energy transfer-fluorescence lifetime imaging microscopy approach supports the possibility that ErnA binds nucleic acids in the plant nuclei. Ectopic expression of ernA in A. indica roots activated organogenesis of root- and nodule-like structures. Collectively, this study unravels the symbiotic functions of rhizobial type III effectors playing distinct and complementary roles in suppression of host immune functions, infection, and nodule organogenesis, and suggests that ErnA triggers organ development in plants by a mechanism that remains to be elucidated.
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Publisher
National Academy of Sciences,CCSD
Subject

Biological Sciences

/ Bradyrhizobium

/ Bradyrhizobium - genetics

/ Bradyrhizobium - metabolism

/ Ectopic expression

/ Effectors

/ Energy transfer

/ Fabaceae - microbiology

/ Fluorescence

/ Fluorescence resonance energy transfer

/ Genes

/ Legumes

/ Leguminous plants

/ Life Sciences

/ Microbiology

/ Mutation

/ Nitrogenase

/ Nitrogenase - genetics

/ Nitrogenase - metabolism

/ Nod factors

/ Nodulation

/ Nodules

/ Nuclei

/ Nuclei (cytology)

/ Nucleic acids

/ Organogenesis

/ Organogenesis, Plant - genetics

/ Organogenesis, Plant - physiology

/ Plant cells

/ Plant Root Nodulation - physiology

/ Plant Roots - metabolism

/ PNAS Plus

/ Pseudomonas fluorescens

/ Pseudomonas fluorescens - genetics

/ Root nodules

/ Root Nodules, Plant - metabolism

/ Symbiosis - physiology

/ Type III Secretion Systems - metabolism

ISBN
0004913667000

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