PUBLICACIONES DE LOS ÚLTIMOS 5 AÑOS

Navazo, A., Barahona, E., Redondo-Nieto, M., Martínez-Granero, F., Rivilla, R. y Martín, M. (2009). Three independent signalling pathways repress motility in Pseudomonas fluorescens F113. Microbial Biotechnology (2009). En prensa

Redondo-Nieto, M., Reguera, M., Bonilla, I., y Bolaños, L. (2008) Boron dependent membrane glycoproteins in symbiosome development and nodule organogenesis: A model for a common role of boron in organogenesis. Plant Signaling & Behavior 3:298-300.

Redondo-Nieto, M., Lloret, J., Larenas, J., Barahona, A., Navazo, F., Martínez-Granero, F., Capdevila, R., Rivilla, R., y Martín, M.(2008). Transcriptional organization of the region encoding the synthesis of the flagellar filament in Pseudomonas fluorescens. J. Bacteriol. 190:4106-4109.

Barahona E., Navazo A., Redondo-Nieto M., Martínez-Granero F., Aguirre De Cárcer D., Martín M. y Rivilla R. (2008) Is biofilm formation a requirement for rhizosphere colonization? In Biology of Plant-Microbe Interactions. Ed. Edited by Matteo Lorito, Sheridan Lois Woo, and Felice Scala. IS-MPMI. St. Paul. Min. ISBN 978-0-9654625-5-6. Volumen 6 .

Redondo-Nieto, M., Pulido, L., Reguera, M., Bonilla, I., y Bolaños, L. (2007) Developmentally regulated membrane glycoproteins sharing antigenicity with rhamnogalacturonan II are not detected in nodulated boron deficient Pisum sativum. Plant, Cell and Environm 30:1437-1443.

Aguirre de Cárcer D., Martín M., Mackova M., Macek T., Karlson U. y Rivilla R. (2007). The introduction of genetically modified microorganisms designed for rhizorremediation induces changes on naitve bacteria in the rhizosphere but not in the surrounding soil. The ISME J. 1: 215–223.

Aguirre de Cárcer D., Martín M., Mackova M., Macek T., Karlson U. y Rivilla R. (2007). Analysis of the impact of introduction of GMOs designed for rhizoremediation on soil and rhizosphere bacterial communities. In. Biosorption and Bioremediation. Ed. M. Macková, T. Macek, K. Demnerová, V. Pazlar, N. Nováková. Praga República Checa. pp:183 – 186.

Aguirre de Cárcer D., Martín M., Karlson U. y Rivilla R. (2007). Change in bacterial populations and in biphenyl dioxygenase gene diversity in a polychlorinated biphenyl-polluted soil after introduction of Willow trees for rhizoremediation. Appl. Environ. Microbiol. 73: 6224- 6232.

Jones, K. M., Lloret, J., Daniele, J. R. y Walkers, G. C. (2007). The type IV secretion system of Sinorhizobium meliloti strain 1021 is required for conjugation but not for intracellular symbiosis. J. Bacteriol. 189: 2133-2138.

Francisco Martínez -Granero, Rafael Rivilla, and Marta Martín (2006). Rhizosphere selection of Pseudomonas fluorescens highly motile phenotypic variants with enhanced competitive colonization ability. Appl. Environ. Microbiol. 72 (5):3429-3434

L. Bolaños, M. Martín, A. El-Hamdaoui, R. Rivilla I. Bonilla (2006). Nitrogenase inhibition in nodules from pea plants grown under salt stress occurs at the physiological level and can be alleviated by B and Ca. Plant and Soil 280:135-142.

Francisco Martínez-Granero, Silvia Capdevila, María Sánchez-Contreras, Marta Martín and Rafael Rivilla. (2005). Two Site-Speci fic Recombinases are Implicated in Phenotypic Variation and Competitive Rhizosphere Colonization in Pseudomonas fluorescens. Microbiology 151: 975-983.

Marta Villacieros, Clare Whelan, Martina Mackova, Jesper Molgaard, María Sánchez-Contreras, Javier Lloret, Daniel Aguirre de Cárcer, Roke I. Oruezábal, Luis Bolaños, Thomas Macek, Ulrich Karlson, David N. Dowling, Marta Martín and Rafael Rivilla . (2005). PCB rhizoremediation by Pseudomonas fluorescens F113 derivatives using a Sinorhizobium meliloti nod system to drive bph gene s expres sion. Appl. Environ. Microbiol. 71: 2687-2694

Bolaños L , Lukaszewski K, Bonilla I,  Blevins D. Why boron? (Review)Plant Physiol. Biochem. 42:907-912 (2004)

BONILLA, I., A.EL-HAMDAOUI, BOLAÑOS, L. “Boron and calcium increase Pisum sativum seed germination and seedling development under salt stress.” Plant and Soil. 267: 97-107 (2004)

TORRECILLA, I., LEGANÉS, F., BONILLA, I., FERNÁNDEZ PIÑAS, F. Light-to-dark transitions trigger a trasient increase in intracellular Ca 2+ modulated by the redox state of the photosynthetic electron transport chain in the cyanobacterium Anabaena sp.PCC7120, expressing cytosolic apoaequorin” Plant,Cell and Envionment . 27: 810-819(2004).

S. Capdevila, F. Martínez-Granero, M Sánchez-Contreras, R. Rivilla y M. Martín. ( 2004). Analysis of Pseudomonas fluorescens F113 genes implicated in flagellar filament synthesis and their role in competitive root colonization. Microbiology 150: 3889-3897 .

Hogan J, Sherlock O, Ryan D, Whelan C, Francesconi S, Rivilla R, Dowling DN. (2004). Fluorescence resonance energy transfer (FRET) based molecular detection of a genetically modified PCB degrader in soil. FEMS Microbiol Lett. 236(2):349-57.

L. Bolaños, M. Redondo-Nieto, R. Rivilla, N. J. Brewin, and I. Bonilla. (2004) Cell Surface Interactions of Rhizobium Bacteroids and Other Bacterial Strains with Symbiosomal and Peribacteroid Membrane Components from Pea Nodules. Mol. Plant-Microbe Interact. 17:216-223. . F.I. 3,855 Ranking 8/144 (Plant science).A

El-Hamdaoui,A., M. Redondo-Nieto, B. Torralba, R. Rivilla, I. Bonilla & L. Bolaños. (2003) Influence of boron and calcium on the tolerance to salinity of nitrogen-fixing pea plants. Plant and Soil 251:93-103. F.I. 1,229 Ranking 7/55 (Agronomy).

Redondo-Nieto M, Wilmot AR, El-Hamdaoui A, Bonilla I, Bolaños L .Relationship between boron and calcium in the N 2-fixing legume-rhizobia symbiosis. Plant Cell Environment 26: 1905-1915 (2003).

El-Hamdaoui,A., M. Redondo-Nieto, R. Rivilla, I. Bonilla & L. Bolaños (2003). Effects of boron and calcium nutrition on the stablishment of the Rhizobium leguminosarum-pea (Pisum sativum) symbiosis and nodule development under salt stress. Plant Cell Environ. 26:1003-1011. F.I. 3,296 Ranking 12/134 (Plant Science)

M. Villacieros, B. Power, M. Sánchez-Contreras, J. Lloret, R.I. Oruezabal, M. Martín, F. Fernández-Piñas, I. Bonilla, C. Whelan, David N. Dowling and R. Rivilla. (2003). Colonization behaviour of Pseudomonas fluorescens and Sinorhizobium meliloti in the alfalfa (Medicago sativa) rhizosphere. Plant and Soil. 251:47-54. F.I. 1,229 Ranking 7/55 (Agronomy)

María Sánchez-Contreras, Marta Martín, Marta Villacieros, Fergal O´Gara, Ildefonso Bonilla and Rafael Rivilla. (2002)Phenotypic selection and phase variation occur during alfalfa root colonization byPseudomonas fluorescensF113 . J. Bacteriol. 184 (6): 1587-1596. F.I. 3,984 Ranking 11/81 (Microbiology)

BOLAÑOS L, REDONDO-NIETO M, BONILLA I, WALL LG. “ Boron requirement in the Discaria trinervis (Rhamnaceae) and Frankia symbiotic relationship. Its essentiality for Frankia BCU110501 growth and nitrogen fixation”. Physiol. Plant. 115:563-570 (2002).

Lloret, J., Martín, M., Oruezabal, R.I., Bonilla, I. and R. Rivilla. (2002) MucR and MucS activate exp genes expression and galactoglucan production in Sinorhizobium meliloti EFB1. Mol. Plant-Microbe Interact. 15:54-59. F.I. 3,855 Ranking 8/144 (Plant science).A

Redondo-Nieto, M., Rivilla, R., El-Hamdaoui, A., Bonilla, I. and Bolaños, L. (2001). Boron deficiency affects early infection events in the pea (Pisum sativum)- Rhizobium symbiotic interaction. Aus. J. Plant Physiol. . 28: 819-823 F.I.:1,562. Ranking 33/134 (Plant Science). A.

Bolaños,L., Cebrián, A., Redondo-Nieto, M., Rivilla, R. and Bonilla, I. (2001). Lectin-Like Glycoprotein PsNLEC-1 Is Not Correctly Glycosylated and Targeted in Boron-Deficient Pea Nodules-. Molecular Plant-Microbe Interacts. 14: 663-670. F.I. 3,855 Ranking 8/144 (Plant science).A

TORRECILLA, I., LEGANÉS, F., BONILLA, I., FERNÁNDEZ PIÑAS, F. Calcium transients in response to salinity and osmatic stress in the nitrogen-fixing cyanobacterium Anabaena sp.PCC7120, expressing cytosolic apoaequorin” Plant,Cell and Envionment 24,641-648. (2001)

TORRECILLA, I., LEGANÉS, F., BONILLA, I., FERNÁNDEZ PIÑAS, F. “ Use of recombinant aequorin to study Ca 2+ homeostasis and to monitor Ca 2+ transients in response to heat and cold shock in cyanobacteria”. Plant. Physiol. 123:161-175.(2000). Factor de Impacto: 3.825. Ranking: 8/129 en Plant Sciences.

BOLAÑOS L, BREWIN NJ, BONILLA I. Effects of boron deficiency on Rhizobium-legume cell surface interactions and nodule development. Plant Physiol. 110: 1249-1256 (1996). Factor de Impacto: 3,696. Ranking: 7/126 en Plant Sciences.

BOLAÑOS, L., ESTEBAN, E., DE LORENZO, C., FERNANDEZ PASCUAL, M., DE FELIPE, M.R., GARATE, E. Y BONILLA, I. "Essentiality of boron for symbiotic dinitrogen fixation in pea (Pisum sativum) Rhizobium nodules. Plant Physiol. 104: 85-90 (1994). Factor de Impacto: 3,696. Ranking: 7/126 en Plant Sciences.

BONILLA, I., GARCIA GONZALEZ, M. Y MATEO, P. "Boron requirement in cyanobacteria. Its possible role in the early evolution of photosynthetic organisms". Plant Physiol. 94: 1554‑1560. (1990). Factor de Impacto: 3,696. Ranking: 7/126 en Plant Sciences.

MATEO, P., BONILLA, I., FERNANDEZ, E. Y SANCHEZ, E. "Essentiality of boron for dinitrogen fixation in Anabaena sp. PCC7119". Plant Physiology. 81: 430‑433. (1986). Factor de Impacto: 3,696. Ranking: 7/126 en Plant Sciences.

BONILLA, I., CADAHIA, C., CARPENA, O. Y HERNANDO, V. "Effect of boron on nitrogen metabolism and sugar levels of sugar beet". Plant and Soil. 57, pp. 3‑9. (1980). Factor de Impacto: 1,396. Ranking: 4/101 en Agriculture.

Sánchez-Contreras, M., Lloret, J., Martín, M., Villacieros, M., Bonilla, I. and Rivilla, R. (2000) PCR use of highly conserved DNA regions for identification of Sinorhizobium meliloti. Appl. Environ. Microbiol. 66:3621-3623. F.I. 3,688. Ranking 15/131 (Biotechnology and applied microbiology) A.

Martin, M., Lloret, J., Sánchez-Contreras, M., Bonilla, I., and Rivilla, R. MucR is necessary for galactoglucan production in Sinorhizobium meliloti EFB1. Mol. Plant-Microbe Interact.13:125-131 (2000). F.I. 3,855 Ranking 8/134 (Plant science).A