Heterologous expression of nifA or nodD genes improves chickpea-Mesorhizobium symbiotic performance

Whole genome re-sequencing reveals genome-wide variations among parental lines of 16 mapping populations in chickpea (Cicer arietinum L.)

(2016) Mahendar Thudi et al.   BMC PLANT BIOLOGY

The Symbiotic Performance of Chickpea Rhizobia Can Be Improved by Additional Copies of the clpB Chaperone Gene

(2016) Ana Paço et al.   PLoS One

Signal molecules and cell-surface components involved in early stages of the legume–rhizobium interactions

(2015) Monika Janczarek et al.   APPLIED SOIL ECOLOGY

Regulatory nodD1 and nodD2 genes of Rhizobium tropici strain CIAT 899 and their roles in the early stages of molecular signaling and host-legume nodulation

(2015) Pablo del Cerro et al.   BMC GENOMICS

The absence of protein Y4yS affects negatively the abundance of T3SS Mesorhizobium loti secretin, RhcC2, in bacterial membranes

(2015) Virginia Mercante et al.   Frontiers in Plant Science

The Symbiotic Biofilm of Sinorhizobium fredii SMH12, Necessary for Successful Colonization and Symbiosis of Glycine max cv Osumi, Is Regulated by Quorum Sensing Systems and Inducing Flavonoids via NodD1

(2014) Francisco Pérez-Montaño et al.   PLoS One

RegPrecise 3.0 – A resource for genome-scale exploration of transcriptional regulation in bacteria

(2013) Pavel S Novichkov et al.   BMC GENOMICS

Legume growth-promoting rhizobia: An overview on the Mesorhizobium genus

(2013) Marta Laranjo et al.   MICROBIOLOGICAL RESEARCH

Speak, friend and enter: signalling systems that promote beneficial symbiotic associations in plants

(2013) Giles E. D. Oldroyd   NATURE REVIEWS MICROBIOLOGY

The NifA-RpoN Regulon of Mesorhizobium loti Strain R7A and Its Symbiotic Activation by a Novel LacI/GalR-Family Regulator

(2013) John T. Sullivan et al.   PLoS One

Cyclic-β-glucans of Rhizobium (Sinorhizobium) sp. strain NGR234 are required for hypo-osmotic adaptation, motility, and efficient symbiosis with host plants

(2012) Jérémie Gay-Fraret et al.   FEMS MICROBIOLOGY LETTERS

Transcriptional analysis of major chaperone genes in salt-tolerant and salt-sensitive mesorhizobia

(2012) Clarisse Brígido et al.   MICROBIOLOGICAL RESEARCH

A ClpB Chaperone Knockout Mutant ofMesorhizobium ciceriShows a Delay in the Root Nodulation of Chickpea Plants

(2012) Clarisse Brígido et al.   MOLECULAR PLANT-MICROBE INTERACTIONS

Rhizobium Promotes Non-Legumes Growth and Quality in Several Production Steps: Towards a Biofertilization of Edible Raw Vegetables Healthy for Humans

(2012) Paula García-Fraile et al.   PLoS One

Comparative Analysis of Kabuli Chickpea Transcriptome with Desi and Wild Chickpea Provides a Rich Resource for Development of Functional Markers

(2012) Gaurav Agarwal et al.   PLoS One

Development of Functional Symbiotic White Clover Root Hairs and Nodules Requires Tightly Regulated Production of Rhizobial Cellulase CelC2

(2011) Marta Robledo et al.   MOLECULAR PLANT-MICROBE INTERACTIONS

Enhanced chickpea growth-promotion ability of a Mesorhizobium strain expressing an exogenous ACC deaminase gene

(2011) F. Nascimento et al.   PLANT AND SOIL

Role of nodD gene product and flavonoid interactions in induction of nodulation genes in Mesorhizobium ciceri

(2010) D. V. Kamboj et al.   PHYSIOLOGY AND MOLECULAR BIOLOGY OF PLANTS

Survey of Chickpea Rhizobia Diversity in Portugal Reveals the Predominance of Species Distinct from Mesorhizobium ciceri and Mesorhizobium mediterraneum

(2009) Ana Alexandre et al.   MICROBIAL ECOLOGY

Chickpea rhizobia symbiosis genes are highly conserved across multiple Mesorhizobium species

(2008) Marta Laranjo et al.   FEMS MICROBIOLOGY ECOLOGY