RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids
Castellani LG, Luchetti A, Nilsson JF, Pérez-Giménez J, Struck B, Schlüter A, Pühler A, Niehaus K, Romero D, Pistorio M, Torres Tejerizo G (2022)
mBio.
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Castellani-mbio.01949-22.pdf
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Castellani, Lucas G.;
Luchetti, Abril;
Nilsson, Juliet F.;
Pérez-Giménez, Julieta;
Struck, Ben;
Schlüter, AndreasUniBi ;
Pühler, AlfredUniBi ;
Niehaus, KarstenUniBi;
Romero, David;
Pistorio, Mariano;
Torres Tejerizo, Gonzalo
Abstract / Bemerkung
Rhizobia are Gram-negative bacteria that are able to establish a nitrogen-fixing symbiotic interaction with leguminous plants. Rhizobia genomes usually harbor several plasmids which can be transferred to other organisms by conjugation. Two main mechanisms of the regulation of rhizobial plasmid transfer have been described: quorum sensing (QS) and the rctA/rctB system. Nevertheless, new genes and molecules that modulate conjugative transfer have recently been described, demonstrating that new actors can tightly regulate the process. In this work, by means of bioinformatics tools and molecular biology approaches, two hypothetical genes are identified as playing key roles in conjugative transfer. These genes are located between conjugative genes of plasmid pRfaLPU83a from Rhizobium favelukesii LPU83, a plasmid that shows a conjugative transfer behavior depending on the genomic background. One of the two mentioned genes, rcgA, is essential for conjugation, while the other, rcgR, acts as an inhibitor of the process. In addition to introducing this new regulatory system, we show evidence of the functions of these genes in different genomic backgrounds and confirm that homologous proteins from non-closely related organisms have the same functions. These findings set up the basis for a new regulatory circuit of the conjugative transfer of plasmids.
IMPORTANCE: Extrachromosomal DNA elements, such as plasmids, allow for the adaptation of bacteria to new environments by conferring new determinants. Via conjugation, plasmids can be transferred between members of the same bacterial species, different species, or even to organisms belonging to a different kingdom. Knowledge about the regulatory systems of plasmid conjugative transfer is key in understanding the dynamics of their dissemination in the environment. As the increasing availability of genomes raises the number of predicted proteins with unknown functions, deeper experimental procedures help to elucidate the roles of these determinants. In this work, two uncharacterized proteins that constitute a new regulatory circuit with a key role in the conjugative transfer of rhizobial plasmids were discovered.
IMPORTANCE: Extrachromosomal DNA elements, such as plasmids, allow for the adaptation of bacteria to new environments by conferring new determinants. Via conjugation, plasmids can be transferred between members of the same bacterial species, different species, or even to organisms belonging to a different kingdom. Knowledge about the regulatory systems of plasmid conjugative transfer is key in understanding the dynamics of their dissemination in the environment. As the increasing availability of genomes raises the number of predicted proteins with unknown functions, deeper experimental procedures help to elucidate the roles of these determinants. In this work, two uncharacterized proteins that constitute a new regulatory circuit with a key role in the conjugative transfer of rhizobial plasmids were discovered.
Erscheinungsjahr
2022
Zeitschriftentitel
mBio
Urheberrecht / Lizenzen
eISSN
2150-7511
Page URI
https://pub.uni-bielefeld.de/record/2965631
Zitieren
Castellani LG, Luchetti A, Nilsson JF, et al. RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids. mBio. 2022.
Castellani, L. G., Luchetti, A., Nilsson, J. F., Pérez-Giménez, J., Struck, B., Schlüter, A., Pühler, A., et al. (2022). RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids. mBio. https://doi.org/10.1128/mbio.01949-22
Castellani, Lucas G., Luchetti, Abril, Nilsson, Juliet F., Pérez-Giménez, Julieta, Struck, Ben, Schlüter, Andreas, Pühler, Alfred, et al. 2022. “RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids”. mBio.
Castellani, L. G., Luchetti, A., Nilsson, J. F., Pérez-Giménez, J., Struck, B., Schlüter, A., Pühler, A., Niehaus, K., Romero, D., Pistorio, M., et al. (2022). RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids. mBio.
Castellani, L.G., et al., 2022. RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids. mBio.
L.G. Castellani, et al., “RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids”, mBio, 2022.
Castellani, L.G., Luchetti, A., Nilsson, J.F., Pérez-Giménez, J., Struck, B., Schlüter, A., Pühler, A., Niehaus, K., Romero, D., Pistorio, M., Torres Tejerizo, G.: RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids. mBio. (2022).
Castellani, Lucas G., Luchetti, Abril, Nilsson, Juliet F., Pérez-Giménez, Julieta, Struck, Ben, Schlüter, Andreas, Pühler, Alfred, Niehaus, Karsten, Romero, David, Pistorio, Mariano, and Torres Tejerizo, Gonzalo. “RcgA and RcgR, Two Novel Proteins Involved in the Conjugative Transfer of Rhizobial Plasmids”. mBio (2022).
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