plant surface microbiology.pdf

6 Signalling in the Rhizobia–Legumes Symbioses 115
Cos P, Calomme M, Sindambiwe JB, De Bruyne T, Cimanga K, Pieters L,Vanden Berghe D
(2001) Cytotoxicity and lipid peroxidation-inhibiting activity of flavonoids. Planta
Med 67:515–519
Cullimore JV, Ranjeva R, Bono J-J (2001) Perception of lipo-chitooligosaccharidic Nod
factors in legumes. Trends Plant Sci 6:24–30
Demont N, Ardourel M, Maillet F, Promé D, Ferro M et al. (1994) The Rhizobium meliloti
regulatory nodD3 and syrM genes control the synthesis of a particular class of nodulation
factors N-acylated by (omega-1)-hydroxylated fatty acids. EMBO J 13:2139–
2149
Dixon RA, Steele CL (1999) Flavonoids and isoflavonoids – a gold mine for metabolic
engineering. Trends Plant Sci 4:394–400
Downie JA, Parniske M (2002) Fixation with regulation. Nature 420:369–370
Dunn MF, Encarnación S, Araíza G, Vargas MC, Dávalos A, Peralta H, Mora Y, Mora J
(1996) Pyruvate carboxylase from Rhizobium etli: Mutant characterization, nucleotide
sequence, and physiological role. J Bacteriol 178:5960–5970
Endre G, Kereszt A, Kevei Z, Mihacea S, Kalo P, Kiss GB (2002) A receptor kinase gene
regulating symbiotic nodule development. Nature 417:962–966
Entcheva P, Liebl W, Johann A, Hartsch T, Streit WR (2001) Direct cloning from enrichment
cultures, a reliable strategy for the isolation of complete operons and genes from
microbial consortia. Appl Environ Microbiol 67:89–99
Etzler ME, Kalsi G, Ewing NN, Roberts NJ, Day RB, Murphy JB (1999) A Nod factor binding
lection with apyrase activity from legume roots. Proc Natl Acad Sci USA
96:5856–5861
Felle HH, Kondorosi E, Kondorosi A, Schultze M (1996) Rapid alkalinization in alfalfa
root hairs in response to rhizobial lipochitooligosaccharide signals. Plant J
10:295–301
Gao M, D’Haeze W, dee Rycke R,Wolucka B, Holsters M (2001) Knockout of an azorhizobial
dTDP-L-rhamnose synthase affects lipopolysaccharide and extracellular polysaccharide
production and disables symbiosis with Sesbania rostrata. Mol Plant
Microbe Interact 7:857–866
Giancotti FG, Ruoslahti E (1999) Integrin signaling. Science 285:1028–1033
Goedhart J, Röhrig H, Hink MA, van Hoek A, Visser AJWG, Bisseling T, Gadella Jr TWJ
(1999) Nod factors integrate spontaneously in biomembranes and transfer rapidly
between membranes and to root hairs, but transbilayer flip-flop does not occur. Biochemistry
38:10898–10907
González-Pasayo R, Martinez-Romero E (2000) Multiresistance genes of Rhizobium etli
CFN42. Mol Plant Microbe Interact 13:572–577
Gressent F, Drouillard S, Mantegazza N, Samain E, Geremia RA, Canut H, Niebel A,
Driguez H, Ranjeva R, Cullimore J, Bono JJ (1999) Ligand specificity of a high-affinity
binding site for lipochitooligosaccharidic Nod factors in Medicago cell suspension
cultures. Proc Natl Acad Sci USA 96:4704–4709
Harborne JB (ed) (1994) The flavonoids. Chapman and Hall, London, 621 pp
Hartog M den, Musgrave A, Munnik T (2001) Nod factor-induced phosphatidic acid and
diacylglycerol pyrophosphate formation: a role for phospholipase C and D in root
hair deformation. Plant J 25:55–65
Heilmann J, Merfort I (1998) Aktueller Kenntnisstand zum Metabolismus von Flavonoiden
II. Resorption und Metabolismus von Flavonen, Flavanonen, Flavanen, Proanthocyanidinen
und Isoflavonoiden. Pharmazie in unserer Zeit 27:173–183
Hilpert B, Bohlmann H, op den Camp RO, Przybyla D, Miersch O, Buchala A, Apel K
(2001) Isolation and characterization of signal transduction mutants of Arabidopsis
thaliana that constitutively activate the octadecanoid pathway and form necrotic
microlesions. Plant J 26:435–446