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Sinorhizobium meliloti

Yang H-C, J Cheng, TM Finan, BP Rosen, H Bhattacharjee (2005) Novel pathway for arsenic detoxification in the legume symbiont Sinorhizobium meliloti. J Bacterial 187 6991-6997. [Pg.181]

Villacieros M et al. (2005) Polychlorinated biphenyl rhizoremediation by Pseudomonas fluorescens F113 derivatives, using a Sinorhizobium meliloti nod system to drive bph gene expresssion. Appl Environ Microbiol 71 2687-2694. [Pg.619]

Sinorhizobium meliloti 41 -Azorhizobium caulinodans —Methylobacterium extorquens IBT6... [Pg.90]

Miethling R et al (2000) Variation of microbial rhizosphere communities in response to crop species, soil origin, and inoculation with Sinorhizobium meliloti L33. Microb Ecol 40 43 Gray ston S J et al (2001) Accounting for variabUity in soU microbial communities of temperate upland grassland ecosystems. SoU Biol Biochem 33 533... [Pg.30]

Barnett, M.J. Fisher, R.F. Jones, T. et al. Nucleotide sequence and predicted functions of the entire Sinorhizobium meliloti pSymA megaplasmid. Proc. Natl. Acad. Sci. USA, 98, 9883-9888 (2001)... [Pg.461]

One feature of the rhizobium-legume symbiosis is the high degree of specificity that many legumes and their symbiotic partners exhibit. For example, Sinorhizobium meliloti, the well-characterized bacterial symbiont of alflalfa and related Medicago species, is unable to nodule its close relative Pisum sativum (Mendel s pea), and conversely pea symbionts do not nodulate Medicago species. It is now clear that there are multiple molecular determinants... [Pg.524]

Gonzalez-Rizzo S, Crespi M, Frugier F. 2006. The Medicago truncatula CRE1 cytokinin receptor regulates lateral root development and early symbiotic interaction with Sinorhizobium meliloti. Plant Cell 18 2680-2693. [Pg.540]

Peck MC, Fischer RF, Long SR. 2006. Diverse flavonoids stimulate NodDl binding to nod gene promoters in Sinorhizobium meliloti. J Bacteriol 188 5417-5427. [Pg.553]

N. Fraysse, B. Lindner, Z. Kaczynski, L. Sharypova, O. Holst, K. Niehaus, and V. Poinsot, Sinorhizobium meliloti strain 1021 produces a low-molecular mass capsular polysaccharide that is a homopolymer of 3-deoxy-D-manno-oct-2-ulosonic acid harbouring a phospholipidic anchor, Glycobiology, 15 (2005) 101-108. [Pg.141]

B. L. Reuhs, D. P. Geller, J. S. Kim, J. E. Fox, V. S. Kumar Kolli, and S. G. Pueppke, Sinorhizobium fredii and Sinorhizobium meliloti produce structurally conserved lipopolysaccha-rides and strain-specific K antigens, Appl. Environ. Microbiol., 64 (1998) 4930 1938. [Pg.141]

Di-Ar- acety 1 p s c u d aminic acid was also found in OPS of Pseudoalteromonas atlantica T929 and CPS of Sinorhizobium sp. NGR 234,13 and 7-Ar-accLyC5-/V-(3-hydroxybutanoyl)pscudaminic acid in CPS of Sinorhizobium meliloti AK631.13 The data reported on the monosaccharides in the Sinorhizobium CPS are limited, and the full structure of none of the three polysaccharides has been determined. [Pg.377]

Haag, A.F., Wehmeier, S., Beck, S., Marlow, V.L., Fletcher, V., James, E.K., Ferguson, G.P. The Sinorhizobium meliloti LpxXL and AcpXL proteins play important roles in bacteroid development within alfalfa. J Bacteriol 191 (2009) 4681-4686. [Pg.23]

Cronan, G.E., Keating, D.H. Sinorhizobium meliloti sulfotransferase rhat modifies lipopolysaccharide. J Bacteriol 186 (2004) 4168-4176. [Pg.378]

Ferguson, G.P., Jansen, A., Marlow, V.L., Walker, G.C. BacA-mediated bleomycin sensitivity in Sinorhizobium meliloti is independent of the unusual lipid A modification. J Bacteriol 188 (2006) 3143-3148. [Pg.379]

Heiko Scheidle, Andrea GroB, Karsten Niehaus. The Lipid A substructure of the Sinorhizobium meliloti lipopolysaccharides is sufficient to suppress the oxidative burst in host plants. New Phytol 165 (2005) 559-566. [Pg.380]

Keating, D.H. Sinorhizobium meliloti SyrA mediates the transcriptional regulation of genes involved in lipopolysaccharide sulfation and exopolysaccharide biosynthesis. J Bacteriol 189... [Pg.381]

Keating, D.H., Willits, M.G., Long, S.R. A Sinorhizobium meliloti lipopolysaccharide mutant Altered in cell surface sulfation. J Bacteriol 184 (2002) 6681-6689. [Pg.381]

Sharypova, L.A., Niehaus, K., Scheidle, H., Holst, O., Becker, A. Sinorhizobium meliloti acpXL mutant lacks the C28 hydroxylated fatty acid moiety of lipid A and does not express a slow migrating form of lipopolysaccharide. J Biol Chem 278 (2003) 12946-12954. [Pg.384]

Tellstrom, V., Usadel, B., Thimm, O., Stitt, M., Kuster, H., Niehaus, K. The lipopolysaccharide of Sinorhizobium meliloti suppresses defense-associated gene expression in cell cultures of the host plant Medicago truncatula. Plant Physiol 143 (2007) 825-837. [Pg.385]

P. aeruginosa (3) Prochlorococcus marinus Pseudomonas fluorescens (2) Ralstonia metallidurans (5) Ralstonia solanacearum Rhodobacter sphaeroides (2) Rhodopseudomonas palustris Rhodospirillum rubrum Sinorhizobium meliloti (3) Streptomyces coelicolor Synechococcus sp. WH 8102 Synechocystis sp. PCC6803 Thermosynechococcus elongatus Vibrio cholerae Xanthomonas axonopodis Xanthomonas campestris... [Pg.69]

Baumgarth, B., Bartels, F.W., Anselmetti, D., Becker, A. and Ros, R. (2005) Detailed studies of the binding mechanism of the Sinorhizobium meliloti transcriptional activator ExpG to DNA. Microbiology 151, 259-268. [Pg.319]

See other pages where Sinorhizobium meliloti is mentioned: [Pg.172]    [Pg.315]    [Pg.326]    [Pg.84]    [Pg.118]    [Pg.118]    [Pg.209]    [Pg.92]    [Pg.101]    [Pg.526]    [Pg.124]    [Pg.343]    [Pg.380]    [Pg.222]    [Pg.551]    [Pg.5824]    [Pg.1090]    [Pg.1093]    [Pg.167]    [Pg.303]    [Pg.319]   
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