The Bradyrhizobium Sp. LmicA16 Type VI Secretion System Is Required for Efficient Nodulation of Lupinus Spp.

Tighilt, Lilia; Boulila, Farida; Sousa, Bruna Fernanda Silva de; Giraud, Éric; Ruiz-Argüeso, Tomás; Palacios, José Luis Calvo; Imperial, Juan; Rey, Luís

doi:10.1007/s00248-021-01892-8

Cited by 10 publications

(8 citation statements)

References 52 publications

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“…(B) Phylogenetic distribution of T6SS clusters in five main groups based on the tssB locus. Phylogenetic analysis was done using previous nomenclature ( 107 , 108 ) based on the core protein TssB, widely used as structural component for T6SS phylogenetic analysis ( 33 , 109 ). The maximum-likelihood method with 1,000 bootstrap replicates was built with Mega X ( 110 ) using Clustal Omega ( 97 ).…”

Section: Resultsmentioning

confidence: 99%

Sporulation Activated via σ ^W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector

et al. 2023

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The study of bacterial interactions is helping to define species-specific strategies used to modulate the competition dynamics underlying the development of community compositions. In this study, we deciphered the role of Pseudomonas T6SS when competing with Bacillus and the mechanism by which a T6SS-toxin modifies Bacillus physiology.

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Section: Resultsmentioning

confidence: 99%

Sporulation Activated via σ ^W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector

et al. 2023

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“…However, it is still interesting to note that as an intermediate clade, the two strains in Clade 2 uniquely have a gene cluster for the type VI secretion system (T6SS) (Fig. S5, Dataset S5), which is known to influence bacterial competitiveness and symbiosis with eukaryotes (De Sousa et al, 2023; Tighilt et al, 2022). The effects on symbiosis with plants may be closely related to the effectors secreted by T6SS that interact with the host plant and surrounding microbiota (De Sousa et al, 2023).…”

Section: Resultsmentioning

confidence: 99%

Correlating phylogenetic and functional diversity of thenod-free but nodulatingBradyrhizobiumphylogroup

Lü

Camuel

Wang

et al. 2023

Preprint

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Bradyrhizobium is a main rhizobial lineage of which the majority of its members nodulate legume plants using Nod factors (NFs) encoded by the nod genes. However, the photosynthetic phylogroup within Bradyrhizobium (PB) does not contain nod genes but are still capable of establishing a nitrogen-fixing symbiosis with some tropical legumes of the Aeschynomene genus. Furthermore, members of this phylogroup colonize rice roots and promote plant growth. Despite this unique combination of ecological features, genomes of only 13 PB members are sequenced, and almost all are isolated from Aeschynomene spp. nodules. Here, we sequenced 208 new PB members predominantly associated with rice. The extended PB phylogroup comprises three main clades: a basal clade with significant expansion of its diversity, followed by the diversification of a singleton clade from a new clade exclusively represented by our strains. Although the PB strains universally lack the canonical nod genes, all 27 assayed strains representing the broad diversity of these clades induced nodules on Aeschynomene indica. Interestingly, significant differences in the efficiency of symbiosis between the main clades were observed and the singleton clade showed an intermediate symbiotic phenotype aligning well with its intermediate phylogenetic position. Our strain collection expands the phylogenetic and ecological diversity of the nod-free but nodulating Bradyrhizobium and shows that the NF-independent nodulation of Aeschynomene is a common trait of this phylogroup, in contrast to the photosynthetic trait originally thought as its unifying feature.

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“…BH72 (Lucero et al 2022 ), (Mosquito et al 2022 ), (Durán et al 2021 ), (Shidore et al 2012 ) Influences the symbiosis of Rhizobium and hosts R. leguminosarum RBL5523, R. etli Mim1, P. phymatum STM815, Bradyrhizobium sp. LmicA16 (Bladergroen et al 2003 ), (Salinero-Lanzarote et al 2019 ), (Hug et al 2021 ), (Tighilt et al 2022 ) …”

Section: T6ss Confers Resistance To Biotic Stressesmentioning

confidence: 99%

The role of the type VI secretion system in the stress resistance of plant-associated bacteria

Yin,

Cheng,

Lin

2024

Stress Biology

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The type VI secretion system (T6SS) is a powerful bacterial molecular weapon that can inject effector proteins into prokaryotic or eukaryotic cells, thereby participating in the competition between bacteria and improving bacterial environmental adaptability. Although most current studies of the T6SS have focused on animal bacteria, this system is also significant for the adaptation of plant-associated bacteria. This paper briefly introduces the structure and biological functions of the T6SS. We summarize the role of plant-associated bacterial T6SS in adaptability to host plants and the external environment, including resistance to biotic stresses such as host defenses and competition from other bacteria. We review the role of the T6SS in response to abiotic factors such as acid stress, oxidation stress, and osmotic stress. This review provides an important reference for exploring the functions of the T6SS in plant-associated bacteria. In addition, characterizing these anti-stress functions of the T6SS may provide new pathways toward eliminating plant pathogens and controlling agricultural losses.

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The Bradyrhizobium Sp. LmicA16 Type VI Secretion System Is Required for Efficient Nodulation of Lupinus Spp.

Cited by 10 publications

References 52 publications

Sporulation Activated via σ ^W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector

Sporulation Activated via σ ^W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector

Correlating phylogenetic and functional diversity of thenod-free but nodulatingBradyrhizobiumphylogroup

The role of the type VI secretion system in the stress resistance of plant-associated bacteria

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The Bradyrhizobium Sp. LmicA16 Type VI Secretion System Is Required for Efficient Nodulation of Lupinus Spp.

Cited by 10 publications

References 52 publications

Sporulation Activated via σ W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector

Sporulation Activated via σ W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector

Correlating phylogenetic and functional diversity of thenod-free but nodulatingBradyrhizobiumphylogroup

The role of the type VI secretion system in the stress resistance of plant-associated bacteria

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Sporulation Activated via σ ^W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector

Sporulation Activated via σ ^W Protects Bacillus from a Tse1 Peptidoglycan Hydrolase Type VI Secretion System Effector