Nodule-Inducing Activity of Synthetic <i>Sinorhizobium meliloti</i> Nodulation Factors and Related Lipo-Chitooligosaccharides on Alfalfa<i>.</i>Importance of the Acyl Chain Structure1

Demont-Caulet, Nathalie; Maillet, Fabienne; Tailler, Denis; Jacquinet, Jean‐Claude; Promé, Jean‐Claude; Nicolaou, K. C.; Truchet, G.; Beau, Jean‐Marie; Denarié, Jean

doi:10.1104/pp.120.1.83

Cited by 44 publications

(32 citation statements)

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“…As an alternative, we have used cell cultures to characterize NFBSs, as they represent an abundant source of plant material and have been used from a number of species for the biochemical characterization of many putative receptors (22,23). By using M. varia cell cultures (9), a high-specific activity ligand (8) and a range of pure, modified, and differentially substituted LCOs (13,14,18,24), we have characterized a high-affinity, protease-sensitive binding site for Nod factors (NFBS2) that exhibits a K d of 4 nM for the major Nod factor of R. meliloti, the symbiont of Medicago.…”

Section: Discussionmentioning

confidence: 99%

Ligand specificity of a high-affinity binding site for lipo-chitooligosaccharidic Nod factors in Medicago cell suspension cultures

Gressent

Drouillard

Mantegazza

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

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A BSTR ACTRhizobial lipo-chitooligosaccharides (LCOs) are signaling molecules involved in host-range recognition for the establishment of the symbiosis with leguminous plants. The major LCO of Rhizobium meliloti, the symbiont of Medicago plants contains four or five N-acetylglucosamines, O-acetylated and N-acylated with a C16:2 fatty acid on the terminal nonreducing sugar and O-sulfated on the reducing sugar. In this paper, the ligand specificity of a high-affinity binding site (Nod factor binding site 2 or NFBS2), enriched in a plasma membrane-enriched fraction of Medicago cell suspension cultures, is reported. By using chemically synthesized LCOs, the role of structural elements, important for symbiotic activities, as recognition motifs for NFBS2 was determined. The results show that the substitutions on the nonreducing sugar of the LCOs (the O-acetate group, the fatty acid, and the hydroxyl group on the C 4 of the sugar) are determinants for high-affinity binding to NFBS2. In contrast, the sulfate group, which is necessary for all biological activities on Medicago, is not discriminated by NFBS2. However, the reducing sugar of the LCO seems to interact with NFBS2, because ligand binding is affected by the reduction of the free anomeric carbon and depends on the number of N-acetyl glucosamine residues. These results suggest that the recognition of the LCOs by NFBS2 is mediated by structural elements in both the lipid and oligosaccharidic moities, but not by the sulfate group.Rhizobia are bacteria that can elicit the formation of nodules on the roots of legumes in which they fix dinitrogen for the benefit of the plant. Nodule formation is very specific, and a given strain of Rhizobium can infect a limited number of species of the legume family. The establishment of the symbiosis depends on a particular class of signaling molecules produced by the prokaryotic partner: the Nod factors. Nod factors are lipo-chitooligosaccharides (LCOs) consisting of a N-acetylglucosamine backbone, N-acylated on the terminal nonreducing sugar. Variations in the number of glucosamine residues (three to five), in the structure of the fatty acid chain, and the presence of different substitutions on the oligosaccharidic backbone are characteristics of each bacterial strain. At subnanomolar concentrations, purified Nod factors provoke the early symbiotic responses in the plant and in certain species they can induce the morphogenesis of bacteria-free nodules (reviewed in refs.

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Section: Discussionmentioning

confidence: 99%

Ligand specificity of a high-affinity binding site for lipo-chitooligosaccharidic Nod factors in Medicago cell suspension cultures

Gressent

Drouillard

Mantegazza

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

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“…Other groups further proposed alternative strategies for the synthesis of the NodSm factor [12][13][14] or the Nod factors produced by Bradyrhizobium japonicum, the symbiont of soybean [15]. The procedure established by Tailler et al [13] enabled the synthesis of a series of tetrameric sulfated LCOs differing for the structure of the fatty acid (length, degree and position of unsaturations) to perform structure-function studies [16]. Later on, large scale production of LCOs was achieved by chemo-enzymatic synthesis [17,18].…”

Section: Chemical Synthesis Of Nod Factorsmentioning

confidence: 98%

“…While the presence of the sulfate group is essential for all biological responses, the structure of the fatty acid also plays an important role. By using synthetic LCOs differing by the length of the fatty acid (C8, C12, C16, C18) and the number or the position of the unsaturations, it was shown that the optimal chain length was C16 and LCO-IV(S,C16:2Δ2, 9) was more active than LCO-IV(S,C16:1Δ9) [16]. The role of the different substitutions on the oligochitin backbone or the structure of the lipid chain in Nod factor recognition was then examined by conformational studies of natural Nod factors and synthetic analogs, notably benzamide analogs, designed to mimic the geometry of the conjugated double bond in natural NodSm factors [27].…”

Section: Nod Factor Derivativesmentioning

confidence: 99%

“…However, NFBS3 does not discriminate the chemical substituents that are important for host specificity, suggesting that it could be involved in an initial non-stringent perception event of LCOs. NFBS2 was initially characterized in cell suspension cultures of M. varia, Phaseolus vulgaris, and M. truncatula [17,54,55] and differs from NFBS1 and NFBS3 by its ability to discriminate (i) the degree of polymerization of the oligochitin backbone of LCOs and (ii) the length of the fatty acid chain, which both play a role in the biological activity of Nod factors [16]. It is noteworthy that NFBS2 was more abundant in a cell culture line generated from a mutant affected in Nod factor responses compared to the M. truncatula wild-type line [54].…”

Section: Nod Factor-binding Proteins Identified By Biochemical Approamentioning

confidence: 99%

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Lipo-chitooligosaccharidic nodulation factors and their perception by plant receptors

Fliegmann

Bono

2015

Glycoconj J

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Lipo-chitooligosaccharides produced by nitrogen-fixing rhizobia are signaling molecules involved in the establishment of an important agronomical and ecological symbiosis with plants. These compounds, known as Nod factors, are biologically active on plant roots at very low concentrations indicating that they are perceived by specific receptors. This article summarizes the main strategies developed for the syntheses of bioactive Nod factors and their derivatives in order to better understand their mode of perception. Different Nod factor receptors and LCO-binding proteins identified by genetic or biochemical approaches are also presented, indicating perception mechanisms that seem to be more complicated than expected, probably involving multi-component receptor complexes.

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“…7;8 Each rhizobial strain produces a wide range of structurally related LCOs that may be needed at different stages of the symbiosis and to complement one another. [9][10][11] To circumvent the problem caused by the small amount of LCOs produced, genetically modified LCO over-producing strains have been used since the first study of LCO structures. 4 The wild-type strains produce similar LCOs to the over-producing strains.…”

Section: Introductionmentioning

confidence: 99%

Acacia senegal and Prosopis chilensis-nodulating rhizobia Sinorhizobium arboris HAMBI 2361 and S. kostiense HAMBI 2362 produce tetra- and pentameric LCOs that are N-methylated, O-6-carbamoylated and partially sulfated

Nowak

Soupas

Thomas‐Oates

et al. 2004

Carbohydrate Research

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Nodule-Inducing Activity of Synthetic Sinorhizobium meliloti Nodulation Factors and Related Lipo-Chitooligosaccharides on Alfalfa.Importance of the Acyl Chain Structure1

Cited by 44 publications

References 53 publications

Ligand specificity of a high-affinity binding site for lipo-chitooligosaccharidic Nod factors in Medicago cell suspension cultures

Ligand specificity of a high-affinity binding site for lipo-chitooligosaccharidic Nod factors in Medicago cell suspension cultures

Lipo-chitooligosaccharidic nodulation factors and their perception by plant receptors

Acacia senegal and Prosopis chilensis-nodulating rhizobia Sinorhizobium arboris HAMBI 2361 and S. kostiense HAMBI 2362 produce tetra- and pentameric LCOs that are N-methylated, O-6-carbamoylated and partially sulfated

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