A common genomic framework for a diverse assembly of plasmids in the symbiotic nitrogen fixing bacteria

Lisa C. Crossman; Santiago Castillo-Ramirez; Craig McAnnula; Luis Lozano; Georgios S. Vernikos; José L. Acosta; Zara F. Ghazoui; Ismael Hernández-González; Georgina Meakin; Alan W. Walker; Michael F. Hynes; J. Peter W. Young; J. Allan Downie; David Romero; Andrew W.B. Johnston; Guillermo Dávila; Julian Parkhill; Victor González

doi:10.1371/journal.pone.0002567

A common genomic framework for a diverse assembly of plasmids in the symbiotic nitrogen fixing bacteria

Lisa C. Crossman, Santiago Castillo-Ramirez, Craig McAnnula, Luis Lozano, Georgios S. Vernikos, José L. Acosta, Zara F. Ghazoui, Ismael Hernández-González, Georgina Meakin, Alan W. Walker, Michael F. Hynes, J. Peter W. Young, J. Allan Downie, David Romero, Andrew W.B. Johnston, Guillermo Dávila, Julian Parkhill, Victor González

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Resumen

This work centres on the genomic comparisons of two closely-related nitrogen-fixing symbiotic bacteria, Rhizobium leguminosarum biovar viciae 3841 and Rhizobium etli CFN42. These strains maintain a stable genomic core that is also common to other rhizobia species plus a very variable and significant accessory component. The chromosomes are highly syntenic, whereas plasmids are related by fewer syntenic blocks and have mosaic structures. The pairs of plasmids p42f-pRL12, p42e-pRL11 and p42b-pRL9 as well large parts of p42c with pRL10 are shown to be similar, whereas the symbiotic plasmids (p42d and pRL10) are structurally unrelated and seem to follow distinct evolutionary paths. Even though purifying selection is acting on the whole genome, the accessory component is evolving more rapidly. This component is constituted largely for proteins for transport of diverse metabolites and elements of external origin. The present analysis allows us to conclude that a heterogeneous and quickly diversifying group of plasmids co-exists in a common genomic framework.

Idioma original	Inglés
Número de artículo	e2567
Publicación	PLoS ONE
Volumen	3
N.º	7
DOI	https://doi.org/10.1371/journal.pone.0002567
Estado	Publicada - 2 jul. 2008
Publicado de forma externa	Sí

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Crossman, L. C., Castillo-Ramirez, S., McAnnula, C., Lozano, L., Vernikos, G. S., Acosta, J. L., Ghazoui, Z. F., Hernández-González, I., Meakin, G., Walker, A. W., Hynes, M. F., Young, J. P. W., Downie, J. A., Romero, D., Johnston, A. W. B., Dávila, G., Parkhill, J., & González, V. (2008). A common genomic framework for a diverse assembly of plasmids in the symbiotic nitrogen fixing bacteria. PLoS ONE, 3(7), Artículo e2567. https://doi.org/10.1371/journal.pone.0002567

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title = "A common genomic framework for a diverse assembly of plasmids in the symbiotic nitrogen fixing bacteria",

abstract = "This work centres on the genomic comparisons of two closely-related nitrogen-fixing symbiotic bacteria, Rhizobium leguminosarum biovar viciae 3841 and Rhizobium etli CFN42. These strains maintain a stable genomic core that is also common to other rhizobia species plus a very variable and significant accessory component. The chromosomes are highly syntenic, whereas plasmids are related by fewer syntenic blocks and have mosaic structures. The pairs of plasmids p42f-pRL12, p42e-pRL11 and p42b-pRL9 as well large parts of p42c with pRL10 are shown to be similar, whereas the symbiotic plasmids (p42d and pRL10) are structurally unrelated and seem to follow distinct evolutionary paths. Even though purifying selection is acting on the whole genome, the accessory component is evolving more rapidly. This component is constituted largely for proteins for transport of diverse metabolites and elements of external origin. The present analysis allows us to conclude that a heterogeneous and quickly diversifying group of plasmids co-exists in a common genomic framework.",

author = "Crossman, {Lisa C.} and Santiago Castillo-Ramirez and Craig McAnnula and Luis Lozano and Vernikos, {Georgios S.} and Acosta, {Jos{\'e} L.} and Ghazoui, {Zara F.} and Ismael Hern{\'a}ndez-Gonz{\'a}lez and Georgina Meakin and Walker, {Alan W.} and Hynes, {Michael F.} and Young, {J. Peter W.} and Downie, {J. Allan} and David Romero and Johnston, {Andrew W.B.} and Guillermo D{\'a}vila and Julian Parkhill and Victor Gonz{\'a}lez",

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Crossman, LC, Castillo-Ramirez, S, McAnnula, C, Lozano, L, Vernikos, GS, Acosta, JL, Ghazoui, ZF, Hernández-González, I, Meakin, G, Walker, AW, Hynes, MF, Young, JPW, Downie, JA, Romero, D, Johnston, AWB, Dávila, G, Parkhill, J & González, V 2008, 'A common genomic framework for a diverse assembly of plasmids in the symbiotic nitrogen fixing bacteria', PLoS ONE, vol. 3, n.º 7, e2567. https://doi.org/10.1371/journal.pone.0002567

TY - JOUR

T1 - A common genomic framework for a diverse assembly of plasmids in the symbiotic nitrogen fixing bacteria

AU - Crossman, Lisa C.

AU - Castillo-Ramirez, Santiago

AU - McAnnula, Craig

AU - Lozano, Luis

AU - Vernikos, Georgios S.

AU - Acosta, José L.

AU - Ghazoui, Zara F.

AU - Hernández-González, Ismael

AU - Meakin, Georgina

AU - Walker, Alan W.

AU - Hynes, Michael F.

AU - Young, J. Peter W.

AU - Downie, J. Allan

AU - Romero, David

AU - Johnston, Andrew W.B.

AU - Dávila, Guillermo

AU - Parkhill, Julian

AU - González, Victor

PY - 2008/7/2

Y1 - 2008/7/2

N2 - This work centres on the genomic comparisons of two closely-related nitrogen-fixing symbiotic bacteria, Rhizobium leguminosarum biovar viciae 3841 and Rhizobium etli CFN42. These strains maintain a stable genomic core that is also common to other rhizobia species plus a very variable and significant accessory component. The chromosomes are highly syntenic, whereas plasmids are related by fewer syntenic blocks and have mosaic structures. The pairs of plasmids p42f-pRL12, p42e-pRL11 and p42b-pRL9 as well large parts of p42c with pRL10 are shown to be similar, whereas the symbiotic plasmids (p42d and pRL10) are structurally unrelated and seem to follow distinct evolutionary paths. Even though purifying selection is acting on the whole genome, the accessory component is evolving more rapidly. This component is constituted largely for proteins for transport of diverse metabolites and elements of external origin. The present analysis allows us to conclude that a heterogeneous and quickly diversifying group of plasmids co-exists in a common genomic framework.

AB - This work centres on the genomic comparisons of two closely-related nitrogen-fixing symbiotic bacteria, Rhizobium leguminosarum biovar viciae 3841 and Rhizobium etli CFN42. These strains maintain a stable genomic core that is also common to other rhizobia species plus a very variable and significant accessory component. The chromosomes are highly syntenic, whereas plasmids are related by fewer syntenic blocks and have mosaic structures. The pairs of plasmids p42f-pRL12, p42e-pRL11 and p42b-pRL9 as well large parts of p42c with pRL10 are shown to be similar, whereas the symbiotic plasmids (p42d and pRL10) are structurally unrelated and seem to follow distinct evolutionary paths. Even though purifying selection is acting on the whole genome, the accessory component is evolving more rapidly. This component is constituted largely for proteins for transport of diverse metabolites and elements of external origin. The present analysis allows us to conclude that a heterogeneous and quickly diversifying group of plasmids co-exists in a common genomic framework.

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DO - 10.1371/journal.pone.0002567

M3 - Artículo

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AN - SCOPUS:49749105565

SN - 1932-6203

VL - 3

JO - PLoS ONE

JF - PLoS ONE

IS - 7

M1 - e2567

ER -

A common genomic framework for a diverse assembly of plasmids in the symbiotic nitrogen fixing bacteria

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